# Hotspot 2.0 tests # Copyright (c) 2013-2019, Jouni Malinen # # This software may be distributed under the terms of the BSD license. # See README for more details. from remotehost import remote_compatible import base64 import binascii import struct import time import logging logger = logging.getLogger() import os import os.path import socket import subprocess import hostapd from utils import * import hwsim_utils from tshark import run_tshark from wlantest import Wlantest from wpasupplicant import WpaSupplicant from wlantest import WlantestCapture from test_ap_eap import check_eap_capa, check_domain_match_full from test_gas import gas_rx, parse_gas, action_response, anqp_initial_resp, send_gas_resp, ACTION_CATEG_PUBLIC, GAS_INITIAL_RESPONSE def hs20_ap_params(ssid="test-hs20"): params = hostapd.wpa2_params(ssid=ssid) params['wpa_key_mgmt'] = "WPA-EAP" params['ieee80211w'] = "1" params['ieee8021x'] = "1" params['auth_server_addr'] = "127.0.0.1" params['auth_server_port'] = "1812" params['auth_server_shared_secret'] = "radius" params['interworking'] = "1" params['access_network_type'] = "14" params['internet'] = "1" params['asra'] = "0" params['esr'] = "0" params['uesa'] = "0" params['venue_group'] = "7" params['venue_type'] = "1" params['venue_name'] = ["eng:Example venue", "fin:Esimerkkipaikka"] params['roaming_consortium'] = ["112233", "1020304050", "010203040506", "fedcba"] params['domain_name'] = "example.com,another.example.com" params['nai_realm'] = ["0,example.com,13[5:6],21[2:4][5:7]", "0,another.example.com"] params['hs20'] = "1" params['hs20_wan_metrics'] = "01:8000:1000:80:240:3000" params['hs20_conn_capab'] = ["1:0:2", "6:22:1", "17:5060:0"] params['hs20_operating_class'] = "5173" params['anqp_3gpp_cell_net'] = "244,91" return params def check_auto_select(dev, bssid, hapd=None): dev.scan_for_bss(bssid, freq="2412") dev.request("INTERWORKING_SELECT auto freq=2412") ev = dev.wait_connected(timeout=15) if bssid not in ev: raise Exception("Connected to incorrect network") if hapd: hapd.wait_sta() dev.request("REMOVE_NETWORK all") dev.wait_disconnected() dev.dump_monitor() if hapd: hapd.wait_sta_disconnect() def interworking_select(dev, bssid, type=None, no_match=False, freq=None): dev.dump_monitor() if bssid and freq and not no_match: dev.scan_for_bss(bssid, freq=freq) freq_extra = " freq=" + str(freq) if freq else "" dev.request("INTERWORKING_SELECT" + freq_extra) ev = dev.wait_event(["INTERWORKING-AP", "INTERWORKING-NO-MATCH"], timeout=15) if ev is None: raise Exception("Network selection timed out") if no_match: if "INTERWORKING-NO-MATCH" not in ev: raise Exception("Unexpected network match") return if "INTERWORKING-NO-MATCH" in ev: logger.info("Matching network not found - try again") dev.dump_monitor() dev.request("INTERWORKING_SELECT" + freq_extra) ev = dev.wait_event(["INTERWORKING-AP", "INTERWORKING-NO-MATCH"], timeout=15) if ev is None: raise Exception("Network selection timed out") if "INTERWORKING-NO-MATCH" in ev: raise Exception("Matching network not found") if bssid and bssid not in ev: raise Exception("Unexpected BSSID in match") if type and "type=" + type not in ev: raise Exception("Network type not recognized correctly") def check_sp_type(dev, sp_type): type = dev.get_status_field("sp_type") if type is None: raise Exception("sp_type not available") if type != sp_type: raise Exception("sp_type did not indicate %s network" % sp_type) def hlr_auc_gw_available(): if not os.path.exists("/tmp/hlr_auc_gw.sock"): raise HwsimSkip("No hlr_auc_gw socket available") if not os.path.exists("../../hostapd/hlr_auc_gw"): raise HwsimSkip("No hlr_auc_gw available") def interworking_ext_sim_connect(dev, bssid, method): dev.request("INTERWORKING_CONNECT " + bssid) interworking_ext_sim_auth(dev, method) def interworking_ext_sim_auth(dev, method): ev = dev.wait_event(["CTRL-EVENT-EAP-METHOD"], timeout=15) if ev is None: raise Exception("Network connected timed out") if "(" + method + ")" not in ev: raise Exception("Unexpected EAP method selection") ev = dev.wait_event(["CTRL-REQ-SIM"], timeout=15) if ev is None: raise Exception("Wait for external SIM processing request timed out") p = ev.split(':', 2) if p[1] != "GSM-AUTH": raise Exception("Unexpected CTRL-REQ-SIM type") id = p[0].split('-')[3] rand = p[2].split(' ')[0] res = subprocess.check_output(["../../hostapd/hlr_auc_gw", "-m", "auth_serv/hlr_auc_gw.milenage_db", "GSM-AUTH-REQ 232010000000000 " + rand]).decode() if "GSM-AUTH-RESP" not in res: raise Exception("Unexpected hlr_auc_gw response") resp = res.split(' ')[2].rstrip() dev.request("CTRL-RSP-SIM-" + id + ":GSM-AUTH:" + resp) dev.wait_connected(timeout=15) def interworking_connect(dev, bssid, method): dev.request("INTERWORKING_CONNECT " + bssid) interworking_auth(dev, method) def interworking_auth(dev, method): ev = dev.wait_event(["CTRL-EVENT-EAP-METHOD"], timeout=15) if ev is None: raise Exception("Network connected timed out") if "(" + method + ")" not in ev: raise Exception("Unexpected EAP method selection") dev.wait_connected(timeout=15) def check_probe_resp(wt, bssid_unexpected, bssid_expected): if bssid_unexpected: count = wt.get_bss_counter("probe_response", bssid_unexpected) if count > 0: raise Exception("Unexpected Probe Response frame from AP") if bssid_expected: count = wt.get_bss_counter("probe_response", bssid_expected) if count == 0: raise Exception("No Probe Response frame from AP") def test_ap_anqp_sharing(dev, apdev): """ANQP sharing within ESS and explicit unshare""" check_eap_capa(dev[0], "MSCHAPV2") dev[0].flush_scan_cache() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['nai_realm'] = ["0,example.com,13[5:6],21[2:4][5:7]"] hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com"}) logger.info("Normal network selection with shared ANQP results") dev[0].scan_for_bss(bssid, freq="2412") dev[0].scan_for_bss(bssid2, freq="2412") interworking_select(dev[0], None, "home", freq="2412") dev[0].dump_monitor() state = dev[0].get_status_field('wpa_state') if state != "DISCONNECTED": raise Exception("Unexpected wpa_state after INTERWORKING_SELECT: " + state) logger.debug("BSS entries:\n" + dev[0].request("BSS RANGE=ALL")) res1 = dev[0].get_bss(bssid) res2 = dev[0].get_bss(bssid2) if 'anqp_nai_realm' not in res1: raise Exception("anqp_nai_realm not found for AP1") if 'anqp_nai_realm' not in res2: raise Exception("anqp_nai_realm not found for AP2") if res1['anqp_nai_realm'] != res2['anqp_nai_realm']: raise Exception("ANQP results were not shared between BSSes") logger.info("Explicit ANQP request to unshare ANQP results") dev[0].request("ANQP_GET " + bssid + " 263") ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("ANQP operation timed out") dev[0].request("ANQP_GET " + bssid2 + " 263") ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("ANQP operation timed out") res1 = dev[0].get_bss(bssid) res2 = dev[0].get_bss(bssid2) if res1['anqp_nai_realm'] == res2['anqp_nai_realm']: raise Exception("ANQP results were not unshared") def test_ap_anqp_domain_id(dev, apdev): """ANQP Domain ID""" check_eap_capa(dev[0], "MSCHAPV2") dev[0].flush_scan_cache() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['anqp_domain_id'] = '1234' hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['anqp_domain_id'] = '1234' hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com"}) dev[0].scan_for_bss(bssid, freq="2412") dev[0].scan_for_bss(bssid2, freq="2412") interworking_select(dev[0], None, "home", freq="2412") def test_ap_anqp_no_sharing_diff_ess(dev, apdev): """ANQP no sharing between ESSs""" check_eap_capa(dev[0], "MSCHAPV2") dev[0].flush_scan_cache() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20-another") params['hessid'] = bssid params['nai_realm'] = ["0,example.com,13[5:6],21[2:4][5:7]"] hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com"}) logger.info("Normal network selection with shared ANQP results") dev[0].scan_for_bss(bssid, freq="2412") dev[0].scan_for_bss(bssid2, freq="2412") interworking_select(dev[0], None, "home", freq="2412") def test_ap_anqp_no_sharing_missing_info(dev, apdev): """ANQP no sharing due to missing information""" check_eap_capa(dev[0], "MSCHAPV2") dev[0].flush_scan_cache() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid del params['roaming_consortium'] del params['domain_name'] del params['anqp_3gpp_cell_net'] del params['nai_realm'] hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['nai_realm'] = ["0,example.com,13[5:6],21[2:4][5:7]"] hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com"}) logger.info("Normal network selection with shared ANQP results") dev[0].scan_for_bss(bssid, freq="2412") dev[0].scan_for_bss(bssid2, freq="2412") interworking_select(dev[0], None, "home", freq="2412") def test_ap_anqp_sharing_oom(dev, apdev): """ANQP sharing within ESS and explicit unshare OOM""" check_eap_capa(dev[0], "MSCHAPV2") dev[0].flush_scan_cache() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['nai_realm'] = ["0,example.com,13[5:6],21[2:4][5:7]"] hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com"}) dev[0].scan_for_bss(bssid, freq="2412") dev[0].scan_for_bss(bssid2, freq="2412") interworking_select(dev[0], None, "home", freq="2412") dev[0].dump_monitor() with alloc_fail(dev[0], 1, "wpa_bss_anqp_clone"): dev[0].request("ANQP_GET " + bssid + " 263") ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("ANQP operation timed out") def test_ap_nai_home_realm_query(dev, apdev): """NAI Home Realm Query""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = ["0,example.com,13[5:6],21[2:4][5:7]", "0,another.example.org"] hostapd.add_ap(apdev[0], params) dev[0].scan(freq="2412") dev[0].request("HS20_GET_NAI_HOME_REALM_LIST " + bssid + " realm=example.com") ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("ANQP operation timed out") nai1 = dev[0].get_bss(bssid)['anqp_nai_realm'] dev[0].dump_monitor() dev[0].request("ANQP_GET " + bssid + " 263") ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("ANQP operation timed out") nai2 = dev[0].get_bss(bssid)['anqp_nai_realm'] if len(nai1) >= len(nai2): raise Exception("Unexpected NAI Realm list response lengths") if binascii.hexlify(b"example.com").decode() not in nai1: raise Exception("Home realm not reported") if binascii.hexlify(b"example.org").decode() in nai1: raise Exception("Non-home realm reported") if binascii.hexlify(b"example.com").decode() not in nai2: raise Exception("Home realm not reported in wildcard query") if binascii.hexlify(b"example.org").decode() not in nai2: raise Exception("Non-home realm not reported in wildcard query ") cmds = ["foo", "00:11:22:33:44:55 123", "00:11:22:33:44:55 qq"] for cmd in cmds: if "FAIL" not in dev[0].request("HS20_GET_NAI_HOME_REALM_LIST " + cmd): raise Exception("Invalid HS20_GET_NAI_HOME_REALM_LIST accepted: " + cmd) dev[0].dump_monitor() if "OK" not in dev[0].request("HS20_GET_NAI_HOME_REALM_LIST " + bssid): raise Exception("HS20_GET_NAI_HOME_REALM_LIST failed") ev = dev[0].wait_event(["GAS-QUERY-DONE"], timeout=10) if ev is None: raise Exception("ANQP operation timed out") ev = dev[0].wait_event(["RX-ANQP"], timeout=0.1) if ev is not None: raise Exception("Unexpected ANQP response: " + ev) dev[0].dump_monitor() if "OK" not in dev[0].request("HS20_GET_NAI_HOME_REALM_LIST " + bssid + " 01000b6578616d706c652e636f6d"): raise Exception("HS20_GET_NAI_HOME_REALM_LIST failed") ev = dev[0].wait_event(["RX-ANQP"], timeout=10) if ev is None: raise Exception("No ANQP response") if "NAI Realm list" not in ev: raise Exception("Missing NAI Realm list: " + ev) dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com"}) dev[0].dump_monitor() if "OK" not in dev[0].request("HS20_GET_NAI_HOME_REALM_LIST " + bssid): raise Exception("HS20_GET_NAI_HOME_REALM_LIST failed") ev = dev[0].wait_event(["RX-ANQP"], timeout=10) if ev is None: raise Exception("No ANQP response") if "NAI Realm list" not in ev: raise Exception("Missing NAI Realm list: " + ev) @remote_compatible def test_ap_interworking_scan_filtering(dev, apdev): """Interworking scan filtering with HESSID and access network type""" try: _test_ap_interworking_scan_filtering(dev, apdev) finally: dev[0].request("SET hessid 00:00:00:00:00:00") dev[0].request("SET access_network_type 15") def _test_ap_interworking_scan_filtering(dev, apdev): bssid = apdev[0]['bssid'] params = hs20_ap_params() ssid = "test-hs20-ap1" params['ssid'] = ssid params['hessid'] = bssid hapd0 = hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params() ssid2 = "test-hs20-ap2" params['ssid'] = ssid2 params['hessid'] = bssid2 params['access_network_type'] = "1" del params['venue_group'] del params['venue_type'] hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() Wlantest.setup(hapd0) wt = Wlantest() wt.flush() # Make sure wlantest has seen both BSSs to avoid issues in trying to clear # counters for non-existing BSS. dev[0].scan_for_bss(bssid, freq="2412") dev[0].scan_for_bss(bssid2, freq="2412") wt.clear_bss_counters(bssid) wt.clear_bss_counters(bssid2) logger.info("Check probe request filtering based on HESSID") dev[0].request("SET hessid " + bssid2) dev[0].scan(freq="2412") time.sleep(0.03) check_probe_resp(wt, bssid, bssid2) logger.info("Check probe request filtering based on access network type") wt.clear_bss_counters(bssid) wt.clear_bss_counters(bssid2) dev[0].request("SET hessid 00:00:00:00:00:00") dev[0].request("SET access_network_type 14") dev[0].scan(freq="2412") time.sleep(0.03) check_probe_resp(wt, bssid2, bssid) wt.clear_bss_counters(bssid) wt.clear_bss_counters(bssid2) dev[0].request("SET hessid 00:00:00:00:00:00") dev[0].request("SET access_network_type 1") dev[0].scan(freq="2412") time.sleep(0.03) check_probe_resp(wt, bssid, bssid2) logger.info("Check probe request filtering based on HESSID and ANT") wt.clear_bss_counters(bssid) wt.clear_bss_counters(bssid2) dev[0].request("SET hessid " + bssid) dev[0].request("SET access_network_type 14") dev[0].scan(freq="2412") time.sleep(0.03) check_probe_resp(wt, bssid2, bssid) wt.clear_bss_counters(bssid) wt.clear_bss_counters(bssid2) dev[0].request("SET hessid " + bssid2) dev[0].request("SET access_network_type 14") dev[0].scan(freq="2412") time.sleep(0.03) check_probe_resp(wt, bssid, None) check_probe_resp(wt, bssid2, None) wt.clear_bss_counters(bssid) wt.clear_bss_counters(bssid2) dev[0].request("SET hessid " + bssid) dev[0].request("SET access_network_type 1") dev[0].scan(freq="2412") time.sleep(0.03) check_probe_resp(wt, bssid, None) check_probe_resp(wt, bssid2, None) def test_ap_hs20_select(dev, apdev): """Hotspot 2.0 network selection""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com"}) interworking_select(dev[0], bssid, "home") dev[0].remove_cred(id) id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "no.match.example.com"}) interworking_select(dev[0], bssid, "roaming", freq="2412") dev[0].set_cred_quoted(id, "realm", "no.match.example.com") interworking_select(dev[0], bssid, no_match=True, freq="2412") res = dev[0].request("SCAN_RESULTS") if "[HS20]" not in res: raise Exception("HS20 flag missing from scan results: " + res) bssid2 = apdev[1]['bssid'] params = hs20_ap_params() params['nai_realm'] = ["0,example.org,21"] params['hessid'] = bssid2 params['domain_name'] = "example.org" hostapd.add_ap(apdev[1], params) dev[0].remove_cred(id) id = dev[0].add_cred_values({'realm': "example.org", 'username': "test", 'password': "secret", 'domain': "example.org"}) interworking_select(dev[0], bssid2, "home", freq="2412") def hs20_simulated_sim(dev, ap, method, imsi_privacy=False, imsi_privacy_attr=False): bssid = ap['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['anqp_3gpp_cell_net'] = "555,444" params['domain_name'] = "wlan.mnc444.mcc555.3gppnetwork.org" hostapd.add_ap(ap, params) dev.hs20_enable() params = {'imsi': "555444-333222111", 'eap': method, 'milenage': "5122250214c33e723a5dd523fc145fc0:981d464c7c52eb6e5036234984ad0bcf:000000000123"} if imsi_privacy: check_imsi_privacy_support(dev) params['imsi_privacy_cert'] = "auth_serv/imsi-privacy-cert.pem" if imsi_privacy_attr: params['imsi_privacy_attr'] = "Identifier=1234567" dev.add_cred_values(params) interworking_select(dev, bssid, "home", freq="2412") interworking_connect(dev, bssid, method) check_sp_type(dev, "home") def test_ap_hs20_sim(dev, apdev): """Hotspot 2.0 with simulated SIM and EAP-SIM""" hlr_auc_gw_available() hs20_simulated_sim(dev[0], apdev[0], "SIM") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["INTERWORKING-ALREADY-CONNECTED"], timeout=15) if ev is None: raise Exception("Timeout on already-connected event") def test_ap_hs20_sim_imsi_privacy(dev, apdev): """Hotspot 2.0 with simulated SIM and EAP-SIM with IMSI privacy""" hlr_auc_gw_available() hs20_simulated_sim(dev[0], apdev[0], "SIM", imsi_privacy=True) def test_ap_hs20_sim_invalid(dev, apdev): """Hotspot 2.0 with simulated SIM and EAP-SIM - invalid IMSI""" hlr_auc_gw_available() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['anqp_3gpp_cell_net'] = "555,444" params['domain_name'] = "wlan.mnc444.mcc555.3gppnetwork.org" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].add_cred_values({'imsi': "555444-3332221110", 'eap': "SIM", 'milenage': "5122250214c33e723a5dd523fc145fc0:981d464c7c52eb6e5036234984ad0bcf:000000000123"}) # This hits "No valid IMSI available" in build_root_nai() interworking_select(dev[0], bssid, freq="2412") def test_ap_hs20_sim_oom(dev, apdev): """Hotspot 2.0 with simulated SIM and EAP-SIM - OOM""" hlr_auc_gw_available() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['anqp_3gpp_cell_net'] = "555,444" params['domain_name'] = "wlan.mnc444.mcc555.3gppnetwork.org" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].add_cred_values({'imsi': "555444-333222111", 'eap': "SIM", 'milenage': "5122250214c33e723a5dd523fc145fc0:981d464c7c52eb6e5036234984ad0bcf:000000000123"}) dev[0].scan_for_bss(bssid, freq=2412) interworking_select(dev[0], bssid, freq="2412") with alloc_fail(dev[0], 1, "wpa_config_add_network;interworking_connect_3gpp"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") with alloc_fail(dev[0], 1, "=interworking_connect_3gpp"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") def test_ap_hs20_aka(dev, apdev): """Hotspot 2.0 with simulated USIM and EAP-AKA""" hlr_auc_gw_available() hs20_simulated_sim(dev[0], apdev[0], "AKA") def test_ap_hs20_aka_imsi_privacy(dev, apdev): """Hotspot 2.0 with simulated USIM and EAP-AKA with IMSI privacy""" hlr_auc_gw_available() hs20_simulated_sim(dev[0], apdev[0], "AKA", imsi_privacy=True) def test_ap_hs20_aka_imsi_privacy_attr(dev, apdev): """Hotspot 2.0 with simulated USIM and EAP-AKA with IMSI privacy/attr""" hlr_auc_gw_available() hs20_simulated_sim(dev[0], apdev[0], "AKA", imsi_privacy=True, imsi_privacy_attr=True) def test_ap_hs20_aka_prime(dev, apdev): """Hotspot 2.0 with simulated USIM and EAP-AKA'""" hlr_auc_gw_available() hs20_simulated_sim(dev[0], apdev[0], "AKA'") def test_ap_hs20_aka_prime_imsi_privacy(dev, apdev): """Hotspot 2.0 with simulated USIM and EAP-AKA with IMSI privacy'""" hlr_auc_gw_available() hs20_simulated_sim(dev[0], apdev[0], "AKA'", imsi_privacy=True) def test_ap_hs20_ext_sim(dev, apdev): """Hotspot 2.0 with external SIM processing""" hlr_auc_gw_available() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['anqp_3gpp_cell_net'] = "232,01" params['domain_name'] = "wlan.mnc001.mcc232.3gppnetwork.org" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() try: dev[0].request("SET external_sim 1") dev[0].add_cred_values({'imsi': "23201-0000000000", 'eap': "SIM"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_ext_sim_connect(dev[0], bssid, "SIM") check_sp_type(dev[0], "home") finally: dev[0].request("SET external_sim 0") def test_ap_hs20_ext_sim_roaming(dev, apdev): """Hotspot 2.0 with external SIM processing in roaming network""" hlr_auc_gw_available() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['anqp_3gpp_cell_net'] = "244,91;310,026;232,01;234,56" params['domain_name'] = "wlan.mnc091.mcc244.3gppnetwork.org" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() try: dev[0].request("SET external_sim 1") dev[0].add_cred_values({'imsi': "23201-0000000000", 'eap': "SIM"}) interworking_select(dev[0], bssid, "roaming", freq="2412") interworking_ext_sim_connect(dev[0], bssid, "SIM") check_sp_type(dev[0], "roaming") finally: dev[0].request("SET external_sim 0") def test_ap_hs20_username(dev, apdev): """Hotspot 2.0 connection in username/password credential""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['disable_dgaf'] = '1' hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com", 'update_identifier': "1234"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_connect(dev[0], bssid, "TTLS") check_sp_type(dev[0], "home") status = dev[0].get_status() if status['pairwise_cipher'] != "CCMP": raise Exception("Unexpected pairwise cipher") if status['hs20'] != "3": raise Exception("Unexpected HS 2.0 support indication") dev[1].connect("test-hs20", key_mgmt="WPA-EAP", eap="TTLS", identity="hs20-test", password="password", ca_cert="auth_serv/ca.pem", phase2="auth=MSCHAPV2", scan_freq="2412") def test_ap_hs20_connect_api(dev, apdev): """Hotspot 2.0 connection with connect API""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['disable_dgaf'] = '1' hostapd.add_ap(apdev[0], params) wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5') wpas.interface_add("wlan5", drv_params="force_connect_cmd=1") wpas.hs20_enable() wpas.flush_scan_cache() id = wpas.add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com", 'update_identifier': "1234"}) interworking_select(wpas, bssid, "home", freq="2412") interworking_connect(wpas, bssid, "TTLS") check_sp_type(wpas, "home") status = wpas.get_status() if status['pairwise_cipher'] != "CCMP": raise Exception("Unexpected pairwise cipher") if status['hs20'] != "3": raise Exception("Unexpected HS 2.0 support indication") def test_ap_hs20_auto_interworking(dev, apdev): """Hotspot 2.0 connection with auto_interworking=1""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['disable_dgaf'] = '1' hostapd.add_ap(apdev[0], params) dev[0].hs20_enable(auto_interworking=True) id = dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com", 'update_identifier': "1234"}) dev[0].request("REASSOCIATE") dev[0].wait_connected(timeout=15) check_sp_type(dev[0], "home") status = dev[0].get_status() if status['pairwise_cipher'] != "CCMP": raise Exception("Unexpected pairwise cipher") if status['hs20'] != "3": raise Exception("Unexpected HS 2.0 support indication") def test_ap_hs20_auto_interworking_global_pmf(dev, apdev): """Hotspot 2.0 connection with auto_interworking=1 and pmf=2""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) dev[0].hs20_enable(auto_interworking=True) id = dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com", 'update_identifier': "1234"}) try: dev[0].set("pmf", "2") dev[0].request("REASSOCIATE") dev[0].wait_connected(timeout=15) pmf = dev[0].get_status_field("pmf") if pmf != "1": raise Exception("Unexpected PMF state: " + str(pmf)) finally: dev[0].set("pmf", "0") def test_ap_hs20_auto_interworking_global_pmf_fail(dev, apdev): """Hotspot 2.0 connection with auto_interworking=1 and pmf=2 failure""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['ieee80211w'] = "0" params['hessid'] = bssid hostapd.add_ap(apdev[0], params) dev[0].hs20_enable(auto_interworking=True) id = dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com", 'update_identifier': "1234"}) try: dev[0].set("pmf", "2") dev[0].request("REASSOCIATE") for i in range(2): ev = dev[0].wait_event(["CTRL-EVENT-CONNECTED", "INTERWORKING-SELECTED"], timeout=15) if ev is None: raise Exception("Connection result not reported") if "CTRL-EVENT-CONNECTED" in ev: raise Exception("Unexpected connection") dev[0].request("DISCONNECT") finally: dev[0].set("pmf", "0") @remote_compatible def test_ap_hs20_auto_interworking_no_match(dev, apdev): """Hotspot 2.0 connection with auto_interworking=1 and no matching network""" hapd = hostapd.add_ap(apdev[0], {"ssid": "mismatch"}) dev[0].hs20_enable(auto_interworking=True) id = dev[0].connect("mismatch", psk="12345678", scan_freq="2412", only_add_network=True) dev[0].request("ENABLE_NETWORK " + str(id) + " no-connect") id = dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com", 'update_identifier': "1234"}) dev[0].request("INTERWORKING_SELECT auto freq=2412") time.sleep(0.1) dev[0].dump_monitor() for i in range(5): logger.info("start ping") if "PONG" not in dev[0].ctrl.request("PING", timeout=2): raise Exception("PING failed") logger.info("ping done") fetch = 0 scan = 0 for j in range(15): ev = dev[0].wait_event(["ANQP fetch completed", "CTRL-EVENT-SCAN-RESULTS"], timeout=0.05) if ev is None: break if "ANQP fetch completed" in ev: fetch += 1 else: scan += 1 if fetch > 2 * scan + 3: raise Exception("Too many ANQP fetch iterations") dev[0].dump_monitor() dev[0].request("DISCONNECT") @remote_compatible def test_ap_hs20_auto_interworking_no_cred_match(dev, apdev): """Hotspot 2.0 connection with auto_interworking=1 but no cred match""" bssid = apdev[0]['bssid'] params = {"ssid": "test"} hostapd.add_ap(apdev[0], params) dev[0].hs20_enable(auto_interworking=True) dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com"}) id = dev[0].connect("test", psk="12345678", only_add_network=True) dev[0].request("ENABLE_NETWORK %s" % id) logger.info("Verify that scanning continues when there is partial network block match") for i in range(0, 2): ev = dev[0].wait_event(["CTRL-EVENT-SCAN-RESULTS"], 10) if ev is None: raise Exception("Scan timed out") logger.info("Scan completed") def eap_test(dev, ap, eap_params, method, user, release=0): bssid = ap['bssid'] params = hs20_ap_params() params['nai_realm'] = ["0,example.com," + eap_params] if release > 0: params['hs20_release'] = str(release) hapd = hostapd.add_ap(ap, params) dev.flush_scan_cache() dev.hs20_enable() dev.add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': user, 'password': "password"}) interworking_select(dev, bssid, freq="2412") interworking_connect(dev, bssid, method) return hapd @remote_compatible def test_ap_hs20_eap_unknown(dev, apdev): """Hotspot 2.0 connection with unknown EAP method""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = "0,example.com,99" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].add_cred_values(default_cred()) interworking_select(dev[0], None, no_match=True, freq="2412") def test_ap_hs20_eap_peap_mschapv2(dev, apdev): """Hotspot 2.0 connection with PEAP/MSCHAPV2""" check_eap_capa(dev[0], "MSCHAPV2") eap_test(dev[0], apdev[0], "25[3:26]", "PEAP", "user") def test_ap_hs20_eap_peap_default(dev, apdev): """Hotspot 2.0 connection with PEAP/MSCHAPV2 (as default)""" check_eap_capa(dev[0], "MSCHAPV2") eap_test(dev[0], apdev[0], "25", "PEAP", "user") def test_ap_hs20_eap_peap_gtc(dev, apdev): """Hotspot 2.0 connection with PEAP/GTC""" eap_test(dev[0], apdev[0], "25[3:6]", "PEAP", "user") @remote_compatible def test_ap_hs20_eap_peap_unknown(dev, apdev): """Hotspot 2.0 connection with PEAP/unknown""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = "0,example.com,25[3:99]" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].add_cred_values(default_cred()) interworking_select(dev[0], None, no_match=True, freq="2412") def test_ap_hs20_eap_ttls_chap(dev, apdev): """Hotspot 2.0 connection with TTLS/CHAP""" skip_with_fips(dev[0]) eap_test(dev[0], apdev[0], "21[2:2]", "TTLS", "chap user") def test_ap_hs20_eap_ttls_mschap(dev, apdev): """Hotspot 2.0 connection with TTLS/MSCHAP""" skip_with_fips(dev[0]) eap_test(dev[0], apdev[0], "21[2:3]", "TTLS", "mschap user") def test_ap_hs20_eap_ttls_default(dev, apdev): """Hotspot 2.0 connection with TTLS/default""" skip_with_fips(dev[0]) eap_test(dev[0], apdev[0], "21", "TTLS", "hs20-test") def test_ap_hs20_eap_ttls_eap_mschapv2(dev, apdev): """Hotspot 2.0 connection with TTLS/EAP-MSCHAPv2""" check_eap_capa(dev[0], "MSCHAPV2") eap_test(dev[0], apdev[0], "21[3:26][6:7][99:99]", "TTLS", "user") @remote_compatible def test_ap_hs20_eap_ttls_eap_unknown(dev, apdev): """Hotspot 2.0 connection with TTLS/EAP-unknown""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = "0,example.com,21[3:99]" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].add_cred_values(default_cred()) interworking_select(dev[0], None, no_match=True, freq="2412") @remote_compatible def test_ap_hs20_eap_ttls_eap_unsupported(dev, apdev): """Hotspot 2.0 connection with TTLS/EAP-OTP(unsupported)""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = "0,example.com,21[3:5]" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].add_cred_values(default_cred()) interworking_select(dev[0], None, no_match=True, freq="2412") @remote_compatible def test_ap_hs20_eap_ttls_unknown(dev, apdev): """Hotspot 2.0 connection with TTLS/unknown""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = "0,example.com,21[2:5]" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].add_cred_values(default_cred()) interworking_select(dev[0], None, no_match=True, freq="2412") def test_ap_hs20_eap_fast_mschapv2(dev, apdev): """Hotspot 2.0 connection with FAST/EAP-MSCHAPV2""" check_eap_capa(dev[0], "FAST") eap_test(dev[0], apdev[0], "43[3:26]", "FAST", "user") def test_ap_hs20_eap_fast_gtc(dev, apdev): """Hotspot 2.0 connection with FAST/EAP-GTC""" check_eap_capa(dev[0], "FAST") eap_test(dev[0], apdev[0], "43[3:6]", "FAST", "user") def test_ap_hs20_eap_tls(dev, apdev): """Hotspot 2.0 connection with EAP-TLS""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = ["0,example.com,13[5:6]"] hostapd.add_ap(apdev[0], params) dev[0].flush_scan_cache() dev[0].hs20_enable() dev[0].add_cred_values({'realm': "example.com", 'username': "certificate-user", 'ca_cert': "auth_serv/ca.pem", 'client_cert': "auth_serv/user.pem", 'private_key': "auth_serv/user.key"}) interworking_select(dev[0], bssid, freq="2412") interworking_connect(dev[0], bssid, "TLS") @remote_compatible def test_ap_hs20_eap_cert_unknown(dev, apdev): """Hotspot 2.0 connection with certificate, but unknown EAP method""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = ["0,example.com,99[5:6]"] hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].add_cred_values({'realm': "example.com", 'username': "certificate-user", 'ca_cert': "auth_serv/ca.pem", 'client_cert': "auth_serv/user.pem", 'private_key': "auth_serv/user.key"}) interworking_select(dev[0], None, no_match=True, freq="2412") @remote_compatible def test_ap_hs20_eap_cert_unsupported(dev, apdev): """Hotspot 2.0 connection with certificate, but unsupported TTLS""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = ["0,example.com,21[5:6]"] hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].add_cred_values({'realm': "example.com", 'username': "certificate-user", 'ca_cert': "auth_serv/ca.pem", 'client_cert': "auth_serv/user.pem", 'private_key': "auth_serv/user.key"}) interworking_select(dev[0], None, no_match=True, freq="2412") @remote_compatible def test_ap_hs20_eap_invalid_cred(dev, apdev): """Hotspot 2.0 connection with invalid cred configuration""" bssid = apdev[0]['bssid'] params = hs20_ap_params() hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].add_cred_values({'realm': "example.com", 'username': "certificate-user", 'client_cert': "auth_serv/user.pem"}) interworking_select(dev[0], None, no_match=True, freq="2412") def test_ap_hs20_nai_realms(dev, apdev): """Hotspot 2.0 connection and multiple NAI realms and TTLS/PAP""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['nai_realm'] = ["0,no.match.here;example.com;no.match.here.either,21[2:1][5:7]"] hostapd.add_ap(apdev[0], params) dev[0].flush_scan_cache() dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "pap user", 'password': "password", 'domain': "example.com"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_connect(dev[0], bssid, "TTLS") check_sp_type(dev[0], "home") def test_ap_hs20_roaming_consortium(dev, apdev): """Hotspot 2.0 connection based on roaming consortium match""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) dev[0].flush_scan_cache() dev[0].hs20_enable() for consortium in ["112233", "1020304050", "010203040506", "fedcba"]: id = dev[0].add_cred_values({'username': "user", 'password': "password", 'domain': "example.com", 'ca_cert': "auth_serv/ca.pem", 'roaming_consortium': consortium, 'eap': "PEAP"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_connect(dev[0], bssid, "PEAP") check_sp_type(dev[0], "home") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["INTERWORKING-ALREADY-CONNECTED"], timeout=15) if ev is None: raise Exception("Timeout on already-connected event") dev[0].remove_cred(id) def test_ap_hs20_home_ois(dev, apdev): """Hotspot 2.0 connection based on roaming consortium match""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) dev[0].flush_scan_cache() dev[0].hs20_enable() for consortium in [["112233"], ["1020304050"], ["010203040506"], ["fedcba"], ["f12233", "f020304050", "f10203040506", "fedcba"]]: id = dev[0].add_cred_values({'username': "user", 'password': "password", 'domain': "example.com", 'ca_cert': "auth_serv/ca.pem", 'home_ois': consortium, 'eap': "PEAP"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_connect(dev[0], bssid, "PEAP") check_sp_type(dev[0], "home") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["INTERWORKING-ALREADY-CONNECTED"], timeout=15) if ev is None: raise Exception("Timeout on already-connected event") dev[0].remove_cred(id) def test_ap_hs20_roaming_consortiums_match(dev, apdev): """Hotspot 2.0 connection based on roaming_consortiums match""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) dev[0].flush_scan_cache() dev[0].hs20_enable() tests = [("112233", "112233"), ("ffffff,1020304050,eeeeee", "1020304050")] for consortium, selected in tests: id = dev[0].add_cred_values({'username': "user", 'password': "password", 'domain': "my.home.example.com", 'ca_cert': "auth_serv/ca.pem", 'roaming_consortiums': consortium, 'eap': "PEAP"}) interworking_select(dev[0], bssid, "roaming", freq="2412") interworking_connect(dev[0], bssid, "PEAP") check_sp_type(dev[0], "roaming") network_id = dev[0].get_status_field("id") sel = dev[0].get_network(network_id, "roaming_consortium_selection") if sel != selected: raise Exception("Unexpected roaming_consortium_selection value: " + sel) dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["INTERWORKING-ALREADY-CONNECTED"], timeout=15) if ev is None: raise Exception("Timeout on already-connected event") dev[0].remove_cred(id) def test_ap_hs20_max_roaming_consortiums(dev, apdev): """Maximum number of cred roaming_consortiums""" id = dev[0].add_cred() consortium = (36*",ffffff")[1:] if "OK" not in dev[0].request('SET_CRED %d roaming_consortiums "%s"' % (id, consortium)): raise Exception("Maximum number of consortium OIs rejected") consortium = (37*",ffffff")[1:] if "FAIL" not in dev[0].request('SET_CRED %d roaming_consortiums "%s"' % (id, consortium)): raise Exception("Over maximum number of consortium OIs accepted") dev[0].remove_cred(id) def test_ap_hs20_roaming_consortium_invalid(dev, apdev): """Hotspot 2.0 connection and invalid roaming consortium ANQP-element""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid # Override Roaming Consortium ANQP-element with an incorrectly encoded # value. params['anqp_elem'] = "261:04fedcba" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'username': "user", 'password': "password", 'domain': "example.com", 'ca_cert': "auth_serv/ca.pem", 'home_ois': ["fedcba"], 'eap': "PEAP"}) interworking_select(dev[0], bssid, "home", freq="2412", no_match=True) def test_ap_hs20_roaming_consortium_element(dev, apdev): """Hotspot 2.0 connection and invalid roaming consortium element""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid del params['roaming_consortium'] params['vendor_elements'] = '6f00' hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") id = dev[0].add_cred_values({'username': "user", 'password': "password", 'domain': "example.com", 'ca_cert': "auth_serv/ca.pem", 'home_ois': ["112233"], 'eap': "PEAP"}) interworking_select(dev[0], bssid, freq="2412", no_match=True) hapd.set('vendor_elements', '6f020001') if "OK" not in hapd.request("UPDATE_BEACON"): raise Exception("UPDATE_BEACON failed") dev[0].request("BSS_FLUSH 0") dev[0].scan_for_bss(bssid, freq="2412", force_scan=True) interworking_select(dev[0], bssid, freq="2412", no_match=True) def test_ap_hs20_roaming_consortium_constraints(dev, apdev): """Hotspot 2.0 connection and roaming consortium constraints""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['bss_load_test'] = "12:200:20000" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() vals = {'username': "user", 'password': "password", 'domain': "example.com", 'ca_cert': "auth_serv/ca.pem", 'home_ois': ["fedcba"], 'eap': "TTLS"} vals2 = vals.copy() vals2['required_home_ois'] = ["223344"] id = dev[0].add_cred_values(vals2) interworking_select(dev[0], bssid, "home", freq="2412", no_match=True) dev[0].remove_cred(id) vals2 = vals.copy() vals2['min_dl_bandwidth_home'] = "65500" id = dev[0].add_cred_values(vals2) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-AP"], timeout=15) if ev is None: raise Exception("No AP found") if "below_min_backhaul=1" not in ev: raise Exception("below_min_backhaul not reported") dev[0].remove_cred(id) vals2 = vals.copy() vals2['max_bss_load'] = "100" id = dev[0].add_cred_values(vals2) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-AP"], timeout=15) if ev is None: raise Exception("No AP found") if "over_max_bss_load=1" not in ev: raise Exception("over_max_bss_load not reported") dev[0].remove_cred(id) vals2 = vals.copy() vals2['req_conn_capab'] = "6:1234" vals2['domain'] = 'example.org' id = dev[0].add_cred_values(vals2) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-AP"], timeout=15) if ev is None: raise Exception("No AP found") if "conn_capab_missing=1" not in ev: raise Exception("conn_capab_missing not reported") dev[0].remove_cred(id) values = default_cred() values['home_ois'] = ["fedcba"] id3 = dev[0].add_cred_values(values) vals2 = vals.copy() vals2['home_ois'] = ["fedcba"] vals2['priority'] = "2" id = dev[0].add_cred_values(vals2) values = default_cred() values['home_ois'] = ["fedcba"] id2 = dev[0].add_cred_values(values) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-AP"], timeout=15) if ev is None: raise Exception("No AP found") dev[0].remove_cred(id) dev[0].remove_cred(id2) dev[0].remove_cred(id3) def test_ap_hs20_3gpp_constraints(dev, apdev): """Hotspot 2.0 connection and 3GPP credential constraints""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['anqp_3gpp_cell_net'] = "555,444" params['domain_name'] = "wlan.mnc444.mcc555.3gppnetwork.org" params['bss_load_test'] = "12:200:20000" hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() vals = {'imsi': "555444-333222111", 'eap': "SIM", 'milenage': "5122250214c33e723a5dd523fc145fc0:981d464c7c52eb6e5036234984ad0bcf:000000000123"} vals2 = vals.copy() vals2['required_home_ois'] = ["223344"] id = dev[0].add_cred_values(vals2) interworking_select(dev[0], bssid, "home", freq="2412", no_match=True) dev[0].remove_cred(id) vals2 = vals.copy() vals2['min_dl_bandwidth_home'] = "65500" id = dev[0].add_cred_values(vals2) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-AP"], timeout=15) if ev is None: raise Exception("No AP found") if "below_min_backhaul=1" not in ev: raise Exception("below_min_backhaul not reported") dev[0].remove_cred(id) vals2 = vals.copy() vals2['max_bss_load'] = "100" id = dev[0].add_cred_values(vals2) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-AP"], timeout=15) if ev is None: raise Exception("No AP found") if "over_max_bss_load=1" not in ev: raise Exception("over_max_bss_load not reported") dev[0].remove_cred(id) values = default_cred() values['home_ois'] = ["fedcba"] id3 = dev[0].add_cred_values(values) vals2 = vals.copy() vals2['home_ois'] = ["fedcba"] vals2['priority'] = "2" id = dev[0].add_cred_values(vals2) values = default_cred() values['home_ois'] = ["fedcba"] id2 = dev[0].add_cred_values(values) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-AP"], timeout=15) if ev is None: raise Exception("No AP found") dev[0].remove_cred(id) dev[0].remove_cred(id2) dev[0].remove_cred(id3) hapd.disable() params = hs20_ap_params() params['hessid'] = bssid params['anqp_3gpp_cell_net'] = "555,444" params['bss_load_test'] = "12:200:20000" hapd = hostapd.add_ap(apdev[0], params) vals2 = vals.copy() vals2['req_conn_capab'] = "6:1234" id = dev[0].add_cred_values(vals2) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-AP"], timeout=15) if ev is None: raise Exception("No AP found") if "conn_capab_missing=1" not in ev: raise Exception("conn_capab_missing not reported") dev[0].remove_cred(id) def test_ap_hs20_connect_no_full_match(dev, apdev): """Hotspot 2.0 connection and no full match""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['anqp_3gpp_cell_net'] = "555,444" hapd = hostapd.add_ap(apdev[0], params) dev[0].flush_scan_cache() dev[0].hs20_enable() vals = {'username': "user", 'password': "password", 'domain': "example.com", 'ca_cert': "auth_serv/ca.pem", 'home_ois': ["fedcba"], 'eap': "TTLS", 'min_dl_bandwidth_home': "65500"} id = dev[0].add_cred_values(vals) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-AP"], timeout=15) if ev is None: raise Exception("No AP found") if "below_min_backhaul=1" not in ev: raise Exception("below_min_backhaul not reported") interworking_connect(dev[0], bssid, "TTLS") # wait for sta to connect so it can actually disconnect later hapd.wait_sta() dev[0].remove_cred(id) dev[0].wait_disconnected() # wait for sta to disconnect so it can send GAS query hapd.wait_event(["AP-STA-DISCONNECTED"], timeout=1) vals = {'imsi': "555444-333222111", 'eap': "SIM", 'milenage': "5122250214c33e723a5dd523fc145fc0:981d464c7c52eb6e5036234984ad0bcf:000000000123", 'min_dl_bandwidth_roaming': "65500"} id = dev[0].add_cred_values(vals) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-AP"], timeout=15) if ev is None: raise Exception("No AP found") if "below_min_backhaul=1" not in ev: raise Exception("below_min_backhaul not reported") interworking_connect(dev[0], bssid, "SIM") dev[0].remove_cred(id) dev[0].wait_disconnected() def test_ap_hs20_username_roaming(dev, apdev): """Hotspot 2.0 connection in username/password credential (roaming)""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = ["0,example.com,13[5:6],21[2:4][5:7]", "0,roaming.example.com,21[2:4][5:7]", "0,another.example.com"] params['domain_name'] = "another.example.com" params['hessid'] = bssid hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "roaming.example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com"}) interworking_select(dev[0], bssid, "roaming", freq="2412") interworking_connect(dev[0], bssid, "TTLS") check_sp_type(dev[0], "roaming") def test_ap_hs20_username_unknown(dev, apdev): """Hotspot 2.0 connection in username/password credential (no domain in cred)""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password"}) interworking_select(dev[0], bssid, "unknown", freq="2412") interworking_connect(dev[0], bssid, "TTLS") check_sp_type(dev[0], "unknown") def test_ap_hs20_username_unknown2(dev, apdev): """Hotspot 2.0 connection in username/password credential (no domain advertized)""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid del params['domain_name'] hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com"}) interworking_select(dev[0], bssid, "unknown", freq="2412") interworking_connect(dev[0], bssid, "TTLS") check_sp_type(dev[0], "unknown") def test_ap_hs20_gas_while_associated(dev, apdev): """Hotspot 2.0 connection with GAS query while associated""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_connect(dev[0], bssid, "TTLS") hapd.wait_sta() logger.info("Verifying GAS query while associated") dev[0].request("FETCH_ANQP") for i in range(0, 6): ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("Operation timed out") def test_ap_hs20_gas_with_another_ap_while_associated(dev, apdev): """GAS query with another AP while associated""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params() params['hessid'] = bssid2 params['nai_realm'] = ["0,no-match.example.org,13[5:6],21[2:4][5:7]"] hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_connect(dev[0], bssid, "TTLS") hapd.wait_sta() dev[0].dump_monitor() logger.info("Verifying GAS query with same AP while associated") dev[0].request("ANQP_GET " + bssid + " 263") ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("ANQP operation timed out") dev[0].dump_monitor() logger.info("Verifying GAS query with another AP while associated") dev[0].scan_for_bss(bssid2, 2412) dev[0].request("ANQP_GET " + bssid2 + " 263") ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("ANQP operation timed out") def test_ap_hs20_gas_while_associated_with_pmf(dev, apdev): """Hotspot 2.0 connection with GAS query while associated and using PMF""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_gas_while_associated_with_pmf(dev, apdev) finally: dev[0].request("SET pmf 0") def _test_ap_hs20_gas_while_associated_with_pmf(dev, apdev): bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params() params['hessid'] = bssid2 params['nai_realm'] = ["0,no-match.example.org,13[5:6],21[2:4][5:7]"] hostapd.add_ap(apdev[1], params) dev[0].flush_scan_cache() dev[0].hs20_enable() dev[0].request("SET pmf 2") id = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_connect(dev[0], bssid, "TTLS") hapd.wait_sta() logger.info("Verifying GAS query while associated") dev[0].request("FETCH_ANQP") for i in range(0, 2 * 6): ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("Operation timed out") def test_ap_hs20_gas_with_another_ap_while_using_pmf(dev, apdev): """GAS query with another AP while associated and using PMF""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_gas_with_another_ap_while_using_pmf(dev, apdev) finally: dev[0].request("SET pmf 0") def _test_ap_hs20_gas_with_another_ap_while_using_pmf(dev, apdev): bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params() params['hessid'] = bssid2 params['nai_realm'] = ["0,no-match.example.org,13[5:6],21[2:4][5:7]"] hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() dev[0].request("SET pmf 2") id = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_connect(dev[0], bssid, "TTLS") dev[0].dump_monitor() hapd.wait_sta() logger.info("Verifying GAS query with same AP while associated") dev[0].request("ANQP_GET " + bssid + " 263") ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("ANQP operation timed out") dev[0].dump_monitor() logger.info("Verifying GAS query with another AP while associated") dev[0].scan_for_bss(bssid2, 2412) dev[0].request("ANQP_GET " + bssid2 + " 263") ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("ANQP operation timed out") def test_ap_hs20_gas_frag_while_associated(dev, apdev): """Hotspot 2.0 connection with fragmented GAS query while associated""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) hapd.set("gas_frag_limit", "50") dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_connect(dev[0], bssid, "TTLS") hapd.wait_sta() logger.info("Verifying GAS query while associated") dev[0].request("FETCH_ANQP") for i in range(0, 6): ev = dev[0].wait_event(["RX-ANQP"], timeout=5) if ev is None: raise Exception("Operation timed out") def test_ap_hs20_multiple_connects(dev, apdev): """Hotspot 2.0 connection through multiple network selections""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() values = {'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com"} id = dev[0].add_cred_values(values) dev[0].scan_for_bss(bssid, freq="2412") for i in range(0, 3): logger.info("Starting Interworking network selection") dev[0].request("INTERWORKING_SELECT auto freq=2412") while True: ev = dev[0].wait_event(["INTERWORKING-NO-MATCH", "INTERWORKING-ALREADY-CONNECTED", "CTRL-EVENT-CONNECTED"], timeout=15) if ev is None: raise Exception("Connection timed out") if "INTERWORKING-NO-MATCH" in ev: raise Exception("Matching AP not found") if "CTRL-EVENT-CONNECTED" in ev: break if i == 2 and "INTERWORKING-ALREADY-CONNECTED" in ev: break if i == 0: dev[0].request("DISCONNECT") dev[0].dump_monitor() networks = dev[0].list_networks() if len(networks) > 1: raise Exception("Duplicated network block detected") def test_ap_hs20_disallow_aps(dev, apdev): """Hotspot 2.0 connection and disallow_aps""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() values = {'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com"} id = dev[0].add_cred_values(values) dev[0].scan_for_bss(bssid, freq="2412") logger.info("Verify disallow_aps bssid") dev[0].request("SET disallow_aps bssid " + bssid.replace(':', '')) dev[0].request("INTERWORKING_SELECT auto") ev = dev[0].wait_event(["INTERWORKING-NO-MATCH"], timeout=15) if ev is None: raise Exception("Network selection timed out") dev[0].dump_monitor() logger.info("Verify disallow_aps ssid") dev[0].request("SET disallow_aps ssid 746573742d68733230") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["INTERWORKING-NO-MATCH"], timeout=15) if ev is None: raise Exception("Network selection timed out") dev[0].dump_monitor() logger.info("Verify disallow_aps clear") dev[0].request("SET disallow_aps ") interworking_select(dev[0], bssid, "home", freq="2412") dev[0].request("SET disallow_aps bssid " + bssid.replace(':', '')) ret = dev[0].request("INTERWORKING_CONNECT " + bssid) if "FAIL" not in ret: raise Exception("INTERWORKING_CONNECT to disallowed BSS not rejected") if "FAIL" not in dev[0].request("INTERWORKING_CONNECT foo"): raise Exception("Invalid INTERWORKING_CONNECT not rejected") if "FAIL" not in dev[0].request("INTERWORKING_CONNECT 00:11:22:33:44:55"): raise Exception("Invalid INTERWORKING_CONNECT not rejected") def policy_test(dev, ap, hapd, values, only_one=True): dev.dump_monitor() if hapd is not None: hapd.dump_monitor() if ap: logger.info("Verify network selection to AP " + ap['ifname']) bssid = ap['bssid'] dev.scan_for_bss(bssid, freq="2412") else: logger.info("Verify network selection") bssid = None dev.hs20_enable() id = dev.add_cred_values(values) dev.request("INTERWORKING_SELECT auto freq=2412") events = [] while True: ev = dev.wait_event(["INTERWORKING-AP", "INTERWORKING-NO-MATCH", "INTERWORKING-BLACKLISTED", "INTERWORKING-SELECTED"], timeout=15) if ev is None: raise Exception("Network selection timed out") events.append(ev) if "INTERWORKING-NO-MATCH" in ev: raise Exception("Matching AP not found") if bssid and only_one and "INTERWORKING-AP" in ev and bssid not in ev: raise Exception("Unexpected AP claimed acceptable") if "INTERWORKING-SELECTED" in ev: if bssid and bssid not in ev: raise Exception("Selected incorrect BSS") break ev = dev.wait_connected(timeout=15) if bssid and bssid not in ev: raise Exception("Connected to incorrect BSS") conn_bssid = dev.get_status_field("bssid") if bssid and conn_bssid != bssid: raise Exception("bssid information points to incorrect BSS") if hapd is not None: hapd.wait_sta() dev.remove_cred(id) dev.dump_monitor() return events def default_cred(domain=None, user="hs20-test"): cred = {'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': user, 'password': "password"} if domain: cred['domain'] = domain return cred def test_ap_hs20_prefer_home(dev, apdev): """Hotspot 2.0 required roaming consortium""" check_eap_capa(dev[0], "MSCHAPV2") params = hs20_ap_params() params['domain_name'] = "example.org" hapd0 = hostapd.add_ap(apdev[0], params) params = hs20_ap_params() params['ssid'] = "test-hs20-other" params['domain_name'] = "example.com" hapd1 = hostapd.add_ap(apdev[1], params) values = default_cred() values['domain'] = "example.com" policy_test(dev[0], apdev[1], hapd1, values, only_one=False) values['domain'] = "example.org" policy_test(dev[0], apdev[0], hapd0, values, only_one=False) def test_ap_hs20_req_home_ois(dev, apdev): """Hotspot 2.0 required roaming consortium""" check_eap_capa(dev[0], "MSCHAPV2") params = hs20_ap_params() hapd0 = hostapd.add_ap(apdev[0], params) params = hs20_ap_params() params['ssid'] = "test-hs20-other" params['roaming_consortium'] = ["223344"] hapd1 = hostapd.add_ap(apdev[1], params) values = default_cred() values['required_home_ois'] = ["223344"] policy_test(dev[0], apdev[1], hapd1, values) values['required_home_ois'] = ["112233"] policy_test(dev[0], apdev[0], hapd0, values) id = dev[0].add_cred() dev[0].set_cred_quoted(id, "required_home_ois", "112233") dev[0].set_cred_quoted(id, "required_home_ois", "112233445566778899aabbccddeeff") for val in ["", "1", "11", "1122", "1122334", "112233445566778899aabbccddeeff00", "1122334455,12345"]: if "FAIL" not in dev[0].request('SET_CRED {} required_home_ois "{}"'.format(id, val)): raise Exception("Invalid roaming consortium value accepted: " + val) def test_ap_hs20_req_roaming_consortium_no_match(dev, apdev): """Hotspot 2.0 required roaming consortium and no match""" check_eap_capa(dev[0], "MSCHAPV2") params = hs20_ap_params() del params['roaming_consortium'] hostapd.add_ap(apdev[0], params) params = hs20_ap_params() params['ssid'] = "test-hs20-other" params['roaming_consortium'] = ["223345"] hostapd.add_ap(apdev[1], params) values = default_cred() values['required_home_ois'] = ["223344"] dev[0].hs20_enable() id = dev[0].add_cred_values(values) dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["INTERWORKING-NO-MATCH"], timeout=10) if ev is None: raise Exception("INTERWORKING-NO-MATCH not reported") def test_ap_hs20_excluded_ssid(dev, apdev): """Hotspot 2.0 exclusion based on SSID""" check_eap_capa(dev[0], "MSCHAPV2") params = hs20_ap_params() params['roaming_consortium'] = ["223344"] params['anqp_3gpp_cell_net'] = "555,444" hapd0 = hostapd.add_ap(apdev[0], params) params = hs20_ap_params() params['ssid'] = "test-hs20-other" params['roaming_consortium'] = ["223344"] params['anqp_3gpp_cell_net'] = "555,444" hapd1 = hostapd.add_ap(apdev[1], params) values = default_cred() values['excluded_ssid'] = "test-hs20" events = policy_test(dev[0], apdev[1], hapd1, values) ev = [e for e in events if "INTERWORKING-BLACKLISTED " + apdev[0]['bssid'] in e] if len(ev) != 1: raise Exception("Excluded network not reported") values['excluded_ssid'] = "test-hs20-other" events = policy_test(dev[0], apdev[0], hapd0, values) ev = [e for e in events if "INTERWORKING-BLACKLISTED " + apdev[1]['bssid'] in e] if len(ev) != 1: raise Exception("Excluded network not reported") values = default_cred() values['home_ois'] = ["223344"] values['eap'] = "TTLS" values['phase2'] = "auth=MSCHAPV2" values['excluded_ssid'] = "test-hs20" events = policy_test(dev[0], apdev[1], hapd1, values) ev = [e for e in events if "INTERWORKING-BLACKLISTED " + apdev[0]['bssid'] in e] if len(ev) != 1: raise Exception("Excluded network not reported") values = {'imsi': "555444-333222111", 'eap': "SIM", 'milenage': "5122250214c33e723a5dd523fc145fc0:981d464c7c52eb6e5036234984ad0bcf:000000000123", 'excluded_ssid': "test-hs20"} events = policy_test(dev[0], apdev[1], hapd1, values) ev = [e for e in events if "INTERWORKING-BLACKLISTED " + apdev[0]['bssid'] in e] if len(ev) != 1: raise Exception("Excluded network not reported") def test_ap_hs20_roam_to_higher_prio(dev, apdev): """Hotspot 2.0 and roaming from current to higher priority network""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params(ssid="test-hs20-visited") params['domain_name'] = "visited.example.org" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com"}) logger.info("Connect to the only network option") interworking_select(dev[0], bssid, "roaming", freq="2412") dev[0].dump_monitor() interworking_connect(dev[0], bssid, "TTLS") logger.info("Start another AP (home operator) and reconnect") bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20-home") params['domain_name'] = "example.com" hostapd.add_ap(apdev[1], params) dev[0].scan_for_bss(bssid2, freq="2412", force_scan=True) dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["INTERWORKING-NO-MATCH", "INTERWORKING-ALREADY-CONNECTED", "CTRL-EVENT-CONNECTED"], timeout=15) if ev is None: raise Exception("Connection timed out") if "INTERWORKING-NO-MATCH" in ev: raise Exception("Matching AP not found") if "INTERWORKING-ALREADY-CONNECTED" in ev: raise Exception("Unexpected AP selected") if bssid2 not in ev: raise Exception("Unexpected BSSID after reconnection") def test_ap_hs20_domain_suffix_match_full(dev, apdev): """Hotspot 2.0 and domain_suffix_match""" check_domain_match_full(dev[0]) check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com", 'domain_suffix_match': "server.w1.fi"}) interworking_select(dev[0], bssid, "home", freq="2412") dev[0].dump_monitor() interworking_connect(dev[0], bssid, "TTLS") dev[0].request("REMOVE_NETWORK all") dev[0].dump_monitor() dev[0].set_cred_quoted(id, "domain_suffix_match", "no-match.example.com") interworking_select(dev[0], bssid, "home", freq="2412") dev[0].dump_monitor() dev[0].request("INTERWORKING_CONNECT " + bssid) ev = dev[0].wait_event(["CTRL-EVENT-EAP-TLS-CERT-ERROR"]) if ev is None: raise Exception("TLS certificate error not reported") if "Domain suffix mismatch" not in ev: raise Exception("Domain suffix mismatch not reported") def test_ap_hs20_domain_suffix_match(dev, apdev): """Hotspot 2.0 and domain_suffix_match""" check_eap_capa(dev[0], "MSCHAPV2") check_domain_match_full(dev[0]) bssid = apdev[0]['bssid'] params = hs20_ap_params() hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com", 'domain_suffix_match': "w1.fi"}) interworking_select(dev[0], bssid, "home", freq="2412") dev[0].dump_monitor() interworking_connect(dev[0], bssid, "TTLS") def test_ap_hs20_roaming_partner_preference(dev, apdev): """Hotspot 2.0 and roaming partner preference""" check_eap_capa(dev[0], "MSCHAPV2") params = hs20_ap_params() params['domain_name'] = "roaming.example.org" hapd0 = hostapd.add_ap(apdev[0], params) params = hs20_ap_params() params['ssid'] = "test-hs20-other" params['domain_name'] = "roaming.example.net" hapd1 = hostapd.add_ap(apdev[1], params) logger.info("Verify default vs. specified preference") values = default_cred() values['roaming_partner'] = "roaming.example.net,1,127,*" policy_test(dev[0], apdev[1], hapd1, values, only_one=False) values['roaming_partner'] = "roaming.example.net,1,129,*" policy_test(dev[0], apdev[0], hapd0, values, only_one=False) logger.info("Verify partial FQDN match") values['roaming_partner'] = "example.net,0,0,*" policy_test(dev[0], apdev[1], hapd1, values, only_one=False) values['roaming_partner'] = "example.net,0,255,*" policy_test(dev[0], apdev[0], hapd0, values, only_one=False) def test_ap_hs20_max_bss_load(dev, apdev): """Hotspot 2.0 and maximum BSS load""" check_eap_capa(dev[0], "MSCHAPV2") params = hs20_ap_params() params['bss_load_test'] = "12:200:20000" hapd0 = hostapd.add_ap(apdev[0], params) params = hs20_ap_params() params['ssid'] = "test-hs20-other" params['bss_load_test'] = "5:20:10000" hapd1 = hostapd.add_ap(apdev[1], params) logger.info("Verify maximum BSS load constraint") values = default_cred() values['domain'] = "example.com" values['max_bss_load'] = "100" events = policy_test(dev[0], apdev[1], hapd1, values, only_one=False) ev = [e for e in events if "INTERWORKING-AP " + apdev[0]['bssid'] in e] if len(ev) != 1 or "over_max_bss_load=1" not in ev[0]: raise Exception("Maximum BSS Load case not noticed") ev = [e for e in events if "INTERWORKING-AP " + apdev[1]['bssid'] in e] if len(ev) != 1 or "over_max_bss_load=1" in ev[0]: raise Exception("Maximum BSS Load case reported incorrectly") logger.info("Verify maximum BSS load does not prevent connection") values['max_bss_load'] = "1" events = policy_test(dev[0], None, None, values) ev = [e for e in events if "INTERWORKING-AP " + apdev[0]['bssid'] in e] if len(ev) != 1 or "over_max_bss_load=1" not in ev[0]: raise Exception("Maximum BSS Load case not noticed") ev = [e for e in events if "INTERWORKING-AP " + apdev[1]['bssid'] in e] if len(ev) != 1 or "over_max_bss_load=1" not in ev[0]: raise Exception("Maximum BSS Load case not noticed") def test_ap_hs20_max_bss_load2(dev, apdev): """Hotspot 2.0 and maximum BSS load with one AP not advertising""" check_eap_capa(dev[0], "MSCHAPV2") params = hs20_ap_params() params['bss_load_test'] = "12:200:20000" hostapd.add_ap(apdev[0], params) params = hs20_ap_params() params['ssid'] = "test-hs20-other" hapd1 = hostapd.add_ap(apdev[1], params) logger.info("Verify maximum BSS load constraint with AP advertisement") values = default_cred() values['domain'] = "example.com" values['max_bss_load'] = "100" events = policy_test(dev[0], apdev[1], hapd1, values, only_one=False) ev = [e for e in events if "INTERWORKING-AP " + apdev[0]['bssid'] in e] if len(ev) != 1 or "over_max_bss_load=1" not in ev[0]: raise Exception("Maximum BSS Load case not noticed") ev = [e for e in events if "INTERWORKING-AP " + apdev[1]['bssid'] in e] if len(ev) != 1 or "over_max_bss_load=1" in ev[0]: raise Exception("Maximum BSS Load case reported incorrectly") def test_ap_hs20_max_bss_load_roaming(dev, apdev): """Hotspot 2.0 and maximum BSS load (roaming)""" check_eap_capa(dev[0], "MSCHAPV2") params = hs20_ap_params() params['bss_load_test'] = "12:200:20000" hapd0 = hostapd.add_ap(apdev[0], params) values = default_cred() values['domain'] = "roaming.example.com" values['max_bss_load'] = "100" events = policy_test(dev[0], apdev[0], hapd0, values, only_one=True) ev = [e for e in events if "INTERWORKING-AP " + apdev[0]['bssid'] in e] if len(ev) != 1: raise Exception("No INTERWORKING-AP event") if "over_max_bss_load=1" in ev[0]: raise Exception("Maximum BSS Load reported for roaming") def test_ap_hs20_multi_cred_sp_prio(dev, apdev): """Hotspot 2.0 multi-cred sp_priority""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_multi_cred_sp_prio(dev, apdev) finally: dev[0].request("SET external_sim 0") def _test_ap_hs20_multi_cred_sp_prio(dev, apdev): hlr_auc_gw_available() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid del params['domain_name'] params['anqp_3gpp_cell_net'] = "232,01" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") dev[0].request("SET external_sim 1") id1 = dev[0].add_cred_values({'imsi': "23201-0000000000", 'eap': "SIM", 'provisioning_sp': "example.com", 'sp_priority' :"1"}) id2 = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com", 'provisioning_sp': "example.com", 'sp_priority': "2"}) dev[0].dump_monitor() dev[0].scan_for_bss(bssid, freq="2412") dev[0].request("INTERWORKING_SELECT auto freq=2412") interworking_ext_sim_auth(dev[0], "SIM") check_sp_type(dev[0], "unknown") dev[0].request("REMOVE_NETWORK all") dev[0].set_cred(id1, "sp_priority", "2") dev[0].set_cred(id2, "sp_priority", "1") dev[0].dump_monitor() dev[0].request("INTERWORKING_SELECT auto freq=2412") interworking_auth(dev[0], "TTLS") check_sp_type(dev[0], "unknown") def test_ap_hs20_multi_cred_sp_prio2(dev, apdev): """Hotspot 2.0 multi-cred sp_priority with two BSSes""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_multi_cred_sp_prio2(dev, apdev) finally: dev[0].request("SET external_sim 0") def _test_ap_hs20_multi_cred_sp_prio2(dev, apdev): hlr_auc_gw_available() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid del params['nai_realm'] del params['domain_name'] params['anqp_3gpp_cell_net'] = "232,01" hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params() params['ssid'] = "test-hs20-other" params['hessid'] = bssid2 del params['domain_name'] del params['anqp_3gpp_cell_net'] hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() dev[0].request("SET external_sim 1") id1 = dev[0].add_cred_values({'imsi': "23201-0000000000", 'eap': "SIM", 'provisioning_sp': "example.com", 'sp_priority': "1"}) id2 = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com", 'provisioning_sp': "example.com", 'sp_priority': "2"}) dev[0].dump_monitor() dev[0].scan_for_bss(bssid, freq="2412") dev[0].scan_for_bss(bssid2, freq="2412") dev[0].request("INTERWORKING_SELECT auto freq=2412") interworking_ext_sim_auth(dev[0], "SIM") check_sp_type(dev[0], "unknown") conn_bssid = dev[0].get_status_field("bssid") if conn_bssid != bssid: raise Exception("Connected to incorrect BSS") dev[0].request("REMOVE_NETWORK all") dev[0].set_cred(id1, "sp_priority", "2") dev[0].set_cred(id2, "sp_priority", "1") dev[0].dump_monitor() dev[0].request("INTERWORKING_SELECT auto freq=2412") interworking_auth(dev[0], "TTLS") check_sp_type(dev[0], "unknown") conn_bssid = dev[0].get_status_field("bssid") if conn_bssid != bssid2: raise Exception("Connected to incorrect BSS") def test_ap_hs20_multi_cred_sp_prio_same(dev, apdev): """Hotspot 2.0 multi-cred and same sp_priority""" check_eap_capa(dev[0], "MSCHAPV2") hlr_auc_gw_available() bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid del params['domain_name'] params['anqp_3gpp_cell_net'] = "232,01" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") id1 = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "domain1.example.com", 'provisioning_sp': "example.com", 'sp_priority': "1"}) id2 = dev[0].add_cred_values({'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "domain2.example.com", 'provisioning_sp': "example.com", 'sp_priority': "1"}) dev[0].dump_monitor() dev[0].scan_for_bss(bssid, freq="2412") check_auto_select(dev[0], bssid) def check_conn_capab_selection(dev, type, missing): dev.request("INTERWORKING_SELECT freq=2412") ev = dev.wait_event(["INTERWORKING-AP"]) if ev is None: raise Exception("Network selection timed out") if "type=" + type not in ev: raise Exception("Unexpected network type") if missing and "conn_capab_missing=1" not in ev: raise Exception("conn_capab_missing not reported") if not missing and "conn_capab_missing=1" in ev: raise Exception("conn_capab_missing reported unexpectedly") def conn_capab_cred(domain=None, req_conn_capab=None): cred = default_cred(domain=domain) if req_conn_capab: cred['req_conn_capab'] = req_conn_capab return cred def test_ap_hs20_req_conn_capab(dev, apdev): """Hotspot 2.0 network selection with req_conn_capab""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") logger.info("Not used in home network") values = conn_capab_cred(domain="example.com", req_conn_capab="6:1234") id = dev[0].add_cred_values(values) check_conn_capab_selection(dev[0], "home", False) logger.info("Used in roaming network") dev[0].remove_cred(id) values = conn_capab_cred(domain="example.org", req_conn_capab="6:1234") id = dev[0].add_cred_values(values) check_conn_capab_selection(dev[0], "roaming", True) logger.info("Verify that req_conn_capab does not prevent connection if no other network is available") check_auto_select(dev[0], bssid, hapd=hapd) logger.info("Additional req_conn_capab checks") dev[0].remove_cred(id) values = conn_capab_cred(domain="example.org", req_conn_capab="1:0") id = dev[0].add_cred_values(values) check_conn_capab_selection(dev[0], "roaming", True) dev[0].remove_cred(id) values = conn_capab_cred(domain="example.org", req_conn_capab="17:5060") id = dev[0].add_cred_values(values) check_conn_capab_selection(dev[0], "roaming", True) bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20b") params['hs20_conn_capab'] = ["1:0:2", "6:22:1", "17:5060:0", "50:0:1"] hostapd.add_ap(apdev[1], params) dev[0].remove_cred(id) values = conn_capab_cred(domain="example.org", req_conn_capab="50") id = dev[0].add_cred_values(values) dev[0].set_cred(id, "req_conn_capab", "6:22") dev[0].scan_for_bss(bssid2, freq="2412") dev[0].request("INTERWORKING_SELECT freq=2412") for i in range(0, 2): ev = dev[0].wait_event(["INTERWORKING-AP"]) if ev is None: raise Exception("Network selection timed out") if bssid in ev and "conn_capab_missing=1" not in ev: raise Exception("Missing protocol connection capability not reported") if bssid2 in ev and "conn_capab_missing=1" in ev: raise Exception("Protocol connection capability not reported correctly") def test_ap_hs20_req_conn_capab2(dev, apdev): """Hotspot 2.0 network selection with req_conn_capab (not present)""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() del params['hs20_conn_capab'] hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") values = conn_capab_cred(domain="example.org", req_conn_capab="6:1234") id = dev[0].add_cred_values(values) check_conn_capab_selection(dev[0], "roaming", False) def test_ap_hs20_req_conn_capab_and_roaming_partner_preference(dev, apdev): """Hotspot 2.0 and req_conn_capab with roaming partner preference""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['domain_name'] = "roaming.example.org" params['hs20_conn_capab'] = ["1:0:2", "6:22:1", "17:5060:0", "50:0:1"] hapd = hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20-b") params['domain_name'] = "roaming.example.net" hapd2 = hostapd.add_ap(apdev[1], params) values = default_cred() values['roaming_partner'] = "roaming.example.net,1,127,*" id = dev[0].add_cred_values(values) check_auto_select(dev[0], bssid2, hapd=hapd2) dev[0].set_cred(id, "req_conn_capab", "50") check_auto_select(dev[0], bssid, hapd=hapd) dev[0].remove_cred(id) id = dev[0].add_cred_values(values) dev[0].set_cred(id, "req_conn_capab", "51") check_auto_select(dev[0], bssid2, hapd=hapd2) def check_bandwidth_selection(dev, type, below): dev.request("INTERWORKING_SELECT freq=2412") ev = dev.wait_event(["INTERWORKING-AP"]) if ev is None: raise Exception("Network selection timed out") logger.debug("BSS entries:\n" + dev.request("BSS RANGE=ALL")) if "type=" + type not in ev: raise Exception("Unexpected network type") if below and "below_min_backhaul=1" not in ev: raise Exception("below_min_backhaul not reported") if not below and "below_min_backhaul=1" in ev: raise Exception("below_min_backhaul reported unexpectedly") def bw_cred(domain=None, dl_home=None, ul_home=None, dl_roaming=None, ul_roaming=None): cred = default_cred(domain=domain) if dl_home: cred['min_dl_bandwidth_home'] = str(dl_home) if ul_home: cred['min_ul_bandwidth_home'] = str(ul_home) if dl_roaming: cred['min_dl_bandwidth_roaming'] = str(dl_roaming) if ul_roaming: cred['min_ul_bandwidth_roaming'] = str(ul_roaming) return cred def test_ap_hs20_min_bandwidth_home(dev, apdev): """Hotspot 2.0 network selection with min bandwidth (home)""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") values = bw_cred(domain="example.com", dl_home=5490, ul_home=58) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "home", False) dev[0].remove_cred(id) values = bw_cred(domain="example.com", dl_home=5491, ul_home=58) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "home", True) dev[0].remove_cred(id) values = bw_cred(domain="example.com", dl_home=5490, ul_home=59) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "home", True) dev[0].remove_cred(id) values = bw_cred(domain="example.com", dl_home=5491, ul_home=59) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "home", True) check_auto_select(dev[0], bssid, hapd=hapd) bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20-b") params['hs20_wan_metrics'] = "01:8000:1000:1:1:3000" hapd2 = hostapd.add_ap(apdev[1], params) check_auto_select(dev[0], bssid2, hapd=hapd2) def test_ap_hs20_min_bandwidth_home2(dev, apdev): """Hotspot 2.0 network selection with min bandwidth - special cases""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") values = bw_cred(domain="example.com", dl_home=5490, ul_home=58) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "home", False) logger.info("WAN link at capacity") hapd.set('hs20_wan_metrics', "09:8000:1000:80:240:3000") check_bandwidth_selection(dev[0], "home", True) logger.info("Downlink/Uplink Load was not measured") hapd.set('hs20_wan_metrics', "01:8000:1000:80:240:0") check_bandwidth_selection(dev[0], "home", False) logger.info("Uplink and Downlink max values") hapd.set('hs20_wan_metrics', "01:4294967295:4294967295:80:240:3000") check_bandwidth_selection(dev[0], "home", False) dev[0].remove_cred(id) def test_ap_hs20_min_bandwidth_home_hidden_ssid_in_scan_res(dev, apdev): """Hotspot 2.0 network selection with min bandwidth (home) while hidden SSID is included in scan results""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] hapd = hostapd.add_ap(apdev[0], {"ssid": 'secret', "ignore_broadcast_ssid": "1"}) dev[0].scan_for_bss(bssid, freq=2412) hapd.disable() hapd_global = hostapd.HostapdGlobal(apdev[0]) hapd_global.flush() hapd_global.remove(apdev[0]['ifname']) params = hs20_ap_params() hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") values = bw_cred(domain="example.com", dl_home=5490, ul_home=58) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "home", False) dev[0].remove_cred(id) values = bw_cred(domain="example.com", dl_home=5491, ul_home=58) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "home", True) dev[0].remove_cred(id) values = bw_cred(domain="example.com", dl_home=5490, ul_home=59) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "home", True) dev[0].remove_cred(id) values = bw_cred(domain="example.com", dl_home=5491, ul_home=59) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "home", True) check_auto_select(dev[0], bssid, hapd=hapd) bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20-b") params['hs20_wan_metrics'] = "01:8000:1000:1:1:3000" hapd2 = hostapd.add_ap(apdev[1], params) check_auto_select(dev[0], bssid2, hapd=hapd2) dev[0].flush_scan_cache() def test_ap_hs20_min_bandwidth_roaming(dev, apdev): """Hotspot 2.0 network selection with min bandwidth (roaming)""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") values = bw_cred(domain="example.org", dl_roaming=5490, ul_roaming=58) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "roaming", False) dev[0].remove_cred(id) values = bw_cred(domain="example.org", dl_roaming=5491, ul_roaming=58) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "roaming", True) dev[0].remove_cred(id) values = bw_cred(domain="example.org", dl_roaming=5490, ul_roaming=59) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "roaming", True) dev[0].remove_cred(id) values = bw_cred(domain="example.org", dl_roaming=5491, ul_roaming=59) id = dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "roaming", True) check_auto_select(dev[0], bssid, hapd=hapd) bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20-b") params['hs20_wan_metrics'] = "01:8000:1000:1:1:3000" hapd2 = hostapd.add_ap(apdev[1], params) check_auto_select(dev[0], bssid2, hapd=hapd2) def test_ap_hs20_min_bandwidth_and_roaming_partner_preference(dev, apdev): """Hotspot 2.0 and minimum bandwidth with roaming partner preference""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['domain_name'] = "roaming.example.org" params['hs20_wan_metrics'] = "01:8000:1000:1:1:3000" hapd = hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20-b") params['domain_name'] = "roaming.example.net" hapd2 = hostapd.add_ap(apdev[1], params) values = default_cred() values['roaming_partner'] = "roaming.example.net,1,127,*" id = dev[0].add_cred_values(values) check_auto_select(dev[0], bssid2, hapd=hapd2) dev[0].set_cred(id, "min_dl_bandwidth_roaming", "6000") check_auto_select(dev[0], bssid, hapd=hapd) dev[0].set_cred(id, "min_dl_bandwidth_roaming", "10000") check_auto_select(dev[0], bssid2, hapd=hapd2) def test_ap_hs20_min_bandwidth_no_wan_metrics(dev, apdev): """Hotspot 2.0 network selection with min bandwidth but no WAN Metrics""" bssid = apdev[0]['bssid'] params = hs20_ap_params() del params['hs20_wan_metrics'] hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") values = bw_cred(domain="example.com", dl_home=10000, ul_home=10000, dl_roaming=10000, ul_roaming=10000) dev[0].add_cred_values(values) check_bandwidth_selection(dev[0], "home", False) def test_ap_hs20_deauth_req_ess(dev, apdev): """Hotspot 2.0 connection and deauthentication request for ESS""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_deauth_req_ess(dev, apdev) finally: dev[0].request("SET pmf 0") def _test_ap_hs20_deauth_req_ess(dev, apdev): dev[0].request("SET pmf 2") hapd = eap_test(dev[0], apdev[0], "21[3:26]", "TTLS", "user") dev[0].dump_monitor() addr = dev[0].p2p_interface_addr() hapd.wait_sta() hapd.request("HS20_DEAUTH_REQ " + addr + " 1 120 http://example.com/") ev = dev[0].wait_event(["HS20-DEAUTH-IMMINENT-NOTICE"]) if ev is None: raise Exception("Timeout on deauth imminent notice") if "1 120 http://example.com/" not in ev: raise Exception("Unexpected deauth imminent notice: " + ev) hapd.request("DEAUTHENTICATE " + addr) dev[0].wait_disconnected(timeout=10) if "[TEMP-DISABLED]" not in dev[0].list_networks()[0]['flags']: raise Exception("Network not marked temporarily disabled") ev = dev[0].wait_event(["SME: Trying to authenticate", "Trying to associate", "CTRL-EVENT-CONNECTED"], timeout=5) if ev is not None: raise Exception("Unexpected connection attempt") def test_ap_hs20_deauth_req_bss(dev, apdev): """Hotspot 2.0 connection and deauthentication request for BSS""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_deauth_req_bss(dev, apdev) finally: dev[0].request("SET pmf 0") def _test_ap_hs20_deauth_req_bss(dev, apdev): dev[0].request("SET pmf 2") hapd = eap_test(dev[0], apdev[0], "21[3:26]", "TTLS", "user") dev[0].dump_monitor() addr = dev[0].p2p_interface_addr() hapd.wait_sta() hapd.request("HS20_DEAUTH_REQ " + addr + " 0 120 http://example.com/") ev = dev[0].wait_event(["HS20-DEAUTH-IMMINENT-NOTICE"]) if ev is None: raise Exception("Timeout on deauth imminent notice") if "0 120 http://example.com/" not in ev: raise Exception("Unexpected deauth imminent notice: " + ev) hapd.request("DEAUTHENTICATE " + addr + " reason=4") ev = dev[0].wait_disconnected(timeout=10) if "reason=4" not in ev: raise Exception("Unexpected disconnection reason") if "[TEMP-DISABLED]" not in dev[0].list_networks()[0]['flags']: raise Exception("Network not marked temporarily disabled") ev = dev[0].wait_event(["SME: Trying to authenticate", "Trying to associate", "CTRL-EVENT-CONNECTED"], timeout=5) if ev is not None: raise Exception("Unexpected connection attempt") def test_ap_hs20_deauth_req_from_radius(dev, apdev): """Hotspot 2.0 connection and deauthentication request from RADIUS""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_deauth_req_from_radius(dev, apdev) finally: dev[0].request("SET pmf 0") def test_ap_hs20_deauth_req_from_radius_url(dev, apdev): """Hotspot 2.0 connection and deauthentication request from RADIUS with URL""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_deauth_req_from_radius(dev, apdev, url=True) finally: dev[0].set("pmf", "0") def _test_ap_hs20_deauth_req_from_radius(dev, apdev, url=False): bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = ["0,example.com,21[2:4]"] params['hs20_deauth_req_timeout'] = "2" hostapd.add_ap(apdev[0], params) dev[0].request("SET pmf 2") dev[0].hs20_enable() user = "hs20-deauth-test-url" if url else "hs20-deauth-test" dev[0].add_cred_values({'realm': "example.com", 'username': user, 'password': "password"}) interworking_select(dev[0], bssid, freq="2412") interworking_connect(dev[0], bssid, "TTLS") ev = dev[0].wait_event(["HS20-DEAUTH-IMMINENT-NOTICE"], timeout=5) if ev is None: raise Exception("Timeout on deauth imminent notice") if not url and ev.split(' ', 1)[1] != "1 100 ": raise Exception("Unexpected deauth imminent contents: " + ev) if url and ev.split(' ', 1)[1] != "0 0 https://example.com/deauth/": raise Exception("Unexpected deauth imminent contents: " + ev) dev[0].wait_disconnected(timeout=3 if url else 1) def test_ap_hs20_deauth_req_without_pmf(dev, apdev): """Hotspot 2.0 connection and deauthentication request without PMF""" check_eap_capa(dev[0], "MSCHAPV2") dev[0].request("SET pmf 0") hapd = eap_test(dev[0], apdev[0], "21[3:26]", "TTLS", "user", release=1) dev[0].dump_monitor() id = int(dev[0].get_status_field("id")) dev[0].set_network(id, "ieee80211w", "0") dev[0].request("DISCONNECT") dev[0].wait_disconnected() dev[0].select_network(id, freq=2412) dev[0].wait_connected() addr = dev[0].own_addr() hapd.wait_sta() hapd.request("HS20_DEAUTH_REQ " + addr + " 1 120 http://example.com/") ev = dev[0].wait_event(["HS20-DEAUTH-IMMINENT-NOTICE"], timeout=0.2) if ev is not None: raise Exception("Deauth imminent notice without PMF accepted") with alloc_fail(hapd, 1, "wpabuf_alloc;hostapd_ctrl_iface_hs20_deauth_req"): if "FAIL" not in hapd.request("HS20_DEAUTH_REQ " + addr + " 1 120 http://example.com/"): raise Exception("HS20_DEAUTH_REQ accepted during OOM") def test_ap_hs20_deauth_req_pmf_htc(dev, apdev): """Hotspot 2.0 connection and deauthentication request PMF misbehavior (+HTC)""" try: run_ap_hs20_deauth_req_pmf_htc(dev, apdev) finally: stop_monitor(apdev[1]["ifname"]) def run_ap_hs20_deauth_req_pmf_htc(dev, apdev): check_eap_capa(dev[0], "MSCHAPV2") dev[0].request("SET pmf 0") hapd = eap_test(dev[0], apdev[0], "21[3:26]", "TTLS", "user", release=1) dev[0].dump_monitor() addr = dev[0].own_addr() hapd.wait_sta() sock = start_monitor(apdev[1]["ifname"]) radiotap = radiotap_build() bssid = hapd.own_addr().replace(':', '') addr = dev[0].own_addr().replace(':', '') payload = "0a1a0101dd1b506f9a0101780013687474703a2f2f6578616d706c652e636f6d2f" # Claim there is a HT Control field, but then start the frame body from # there and do not encrypt the Robust Action frame. frame = binascii.unhexlify("d0803a01" + addr + 2 * bssid + "0000" + payload) # Claim there is a HT Control field and start the frame body in the correct # location, but do not encrypt the Robust Action frame. Make the first octet # of HT Control field use a non-robust Action Category value. frame2 = binascii.unhexlify("d0803a01" + addr + 2 * bssid + "0000" + "04000000" + payload) sock.send(radiotap + frame) sock.send(radiotap + frame2) ev = dev[0].wait_event(["HS20-DEAUTH-IMMINENT-NOTICE"], timeout=1) if ev is not None: raise Exception("Deauth imminent notice without PMF accepted") def test_ap_hs20_remediation_required(dev, apdev): """Hotspot 2.0 connection and remediation required from RADIUS""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_remediation_required(dev, apdev) finally: dev[0].request("SET pmf 0") def _test_ap_hs20_remediation_required(dev, apdev): bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = ["0,example.com,21[2:4]"] hostapd.add_ap(apdev[0], params) dev[0].request("SET pmf 1") dev[0].hs20_enable() dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-subrem-test", 'password': "password"}) interworking_select(dev[0], bssid, freq="2412") interworking_connect(dev[0], bssid, "TTLS") ev = dev[0].wait_event(["HS20-SUBSCRIPTION-REMEDIATION"], timeout=5) if ev is None: raise Exception("Timeout on subscription remediation notice") if " 1 https://example.com/" not in ev: raise Exception("Unexpected subscription remediation event contents") def test_ap_hs20_remediation_required_ctrl(dev, apdev): """Hotspot 2.0 connection and subrem from ctrl_iface""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_remediation_required_ctrl(dev, apdev) finally: dev[0].request("SET pmf 0") def _test_ap_hs20_remediation_required_ctrl(dev, apdev): bssid = apdev[0]['bssid'] addr = dev[0].own_addr() params = hs20_ap_params() params['nai_realm'] = ["0,example.com,21[2:4]"] hapd = hostapd.add_ap(apdev[0], params) dev[0].request("SET pmf 1") dev[0].hs20_enable() dev[0].add_cred_values(default_cred()) interworking_select(dev[0], bssid, freq="2412") interworking_connect(dev[0], bssid, "TTLS") hapd.wait_sta() hapd.request("HS20_WNM_NOTIF " + addr + " https://example.com/") ev = dev[0].wait_event(["HS20-SUBSCRIPTION-REMEDIATION"], timeout=5) if ev is None: raise Exception("Timeout on subscription remediation notice") if " 1 https://example.com/" not in ev: raise Exception("Unexpected subscription remediation event contents") hapd.request("HS20_WNM_NOTIF " + addr) ev = dev[0].wait_event(["HS20-SUBSCRIPTION-REMEDIATION"], timeout=5) if ev is None: raise Exception("Timeout on subscription remediation notice") if not ev.endswith("HS20-SUBSCRIPTION-REMEDIATION "): raise Exception("Unexpected subscription remediation event contents: " + ev) if "FAIL" not in hapd.request("HS20_WNM_NOTIF "): raise Exception("Unexpected HS20_WNM_NOTIF success") if "FAIL" not in hapd.request("HS20_WNM_NOTIF foo"): raise Exception("Unexpected HS20_WNM_NOTIF success") if "FAIL" not in hapd.request("HS20_WNM_NOTIF " + addr + " https://12345678923456789842345678456783456712345678923456789842345678456783456712345678923456789842345678456783456712345678923456789842345678456783456712345678923456789842345678456783456712345678923456789842345678456783456712345678923456789842345678456783456712345678927.very.long.example.com/"): raise Exception("Unexpected HS20_WNM_NOTIF success") if "OK" not in hapd.request("HS20_WNM_NOTIF " + addr + " "): raise Exception("HS20_WNM_NOTIF failed with empty URL") def test_ap_hs20_session_info(dev, apdev): """Hotspot 2.0 connection and session information from RADIUS""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_session_info(dev, apdev) finally: dev[0].request("SET pmf 0") def _test_ap_hs20_session_info(dev, apdev): bssid = apdev[0]['bssid'] params = hs20_ap_params() params['nai_realm'] = ["0,example.com,21[2:4]"] hostapd.add_ap(apdev[0], params) dev[0].request("SET pmf 1") dev[0].hs20_enable() dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-session-info-test", 'password': "password"}) interworking_select(dev[0], bssid, freq="2412") interworking_connect(dev[0], bssid, "TTLS") ev = dev[0].wait_event(["ESS-DISASSOC-IMMINENT"], timeout=10) if ev is None: raise Exception("Timeout on ESS disassociation imminent notice") if " 1 59904 https://example.com/" not in ev: raise Exception("Unexpected ESS disassociation imminent event contents") ev = dev[0].wait_event(["CTRL-EVENT-SCAN-STARTED"]) if ev is None: raise Exception("Scan not started") ev = dev[0].wait_event(["CTRL-EVENT-SCAN-RESULTS"], timeout=30) if ev is None: raise Exception("Scan not completed") def test_ap_hs20_osen(dev, apdev): """Hotspot 2.0 OSEN connection""" params = {'ssid': "osen", 'osen': "1", 'auth_server_addr': "127.0.0.1", 'auth_server_port': "1812", 'auth_server_shared_secret': "radius"} hostapd.add_ap(apdev[0], params) dev[1].connect("osen", key_mgmt="NONE", scan_freq="2412", wait_connect=False) if "WEP40" in dev[2].get_capability("group"): dev[2].connect("osen", key_mgmt="NONE", wep_key0='"hello"', scan_freq="2412", wait_connect=False) dev[0].flush_scan_cache() dev[0].connect("osen", proto="OSEN", key_mgmt="OSEN", pairwise="CCMP", group="GTK_NOT_USED CCMP", eap="WFA-UNAUTH-TLS", identity="osen@example.com", ca_cert="auth_serv/ca.pem", scan_freq="2412") res = dev[0].get_bss(apdev[0]['bssid'])['flags'] if "[OSEN-OSEN-CCMP]" not in res: raise Exception("OSEN not reported in BSS") if "[WEP]" in res: raise Exception("WEP reported in BSS") res = dev[0].request("SCAN_RESULTS") if "[OSEN-OSEN-CCMP]" not in res: raise Exception("OSEN not reported in SCAN_RESULTS") wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5') wpas.interface_add("wlan5", drv_params="force_connect_cmd=1") wpas.connect("osen", proto="OSEN", key_mgmt="OSEN", pairwise="CCMP", group="GTK_NOT_USED CCMP", eap="WFA-UNAUTH-TLS", identity="osen@example.com", ca_cert="auth_serv/ca.pem", scan_freq="2412") wpas.request("DISCONNECT") def test_ap_hs20_osen_single_ssid(dev, apdev): """Hotspot 2.0 OSEN-single-SSID connection""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['wpa_key_mgmt'] = "WPA-EAP OSEN" params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) dev[0].flush_scan_cache() # RSN-OSEN (for OSU) dev[0].connect("test-hs20", proto="OSEN", key_mgmt="OSEN", pairwise="CCMP", group="CCMP GTK_NOT_USED", eap="WFA-UNAUTH-TLS", identity="osen@example.com", ca_cert="auth_serv/ca.pem", ieee80211w='2', scan_freq="2412") # RSN-EAP (for data connection) dev[1].connect("test-hs20", key_mgmt="WPA-EAP", eap="TTLS", identity="hs20-test", password="password", ca_cert="auth_serv/ca.pem", phase2="auth=MSCHAPV2", pairwise="CCMP", group="CCMP", ieee80211w='2', scan_freq="2412") res = dev[0].get_bss(apdev[0]['bssid'])['flags'] if "[WPA2-EAP+OSEN-CCMP]" not in res: raise Exception("OSEN not reported in BSS") if "[WEP]" in res: raise Exception("WEP reported in BSS") res = dev[0].request("SCAN_RESULTS") if "[WPA2-EAP+OSEN-CCMP]" not in res: raise Exception("OSEN not reported in SCAN_RESULTS") hwsim_utils.test_connectivity(dev[1], hapd) hwsim_utils.test_connectivity(dev[0], hapd, broadcast=False) hwsim_utils.test_connectivity(dev[0], hapd, timeout=1, success_expected=False) def test_ap_hs20_network_preference(dev, apdev): """Hotspot 2.0 network selection with preferred home network""" check_eap_capa(dev[0], "MSCHAPV2") dev[0].flush_scan_cache() bssid = apdev[0]['bssid'] params = hs20_ap_params() hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() values = {'realm': "example.com", 'username': "hs20-test", 'password': "password", 'domain': "example.com"} dev[0].add_cred_values(values) id = dev[0].add_network() dev[0].set_network_quoted(id, "ssid", "home") dev[0].set_network_quoted(id, "psk", "12345678") dev[0].set_network(id, "priority", "1") dev[0].request("ENABLE_NETWORK %s no-connect" % id) dev[0].scan_for_bss(bssid, freq="2412") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_connected(timeout=15) if bssid not in ev: raise Exception("Unexpected network selected") bssid2 = apdev[1]['bssid'] params = hostapd.wpa2_params(ssid="home", passphrase="12345678") hostapd.add_ap(apdev[1], params) dev[0].scan_for_bss(bssid2, freq="2412") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["CTRL-EVENT-CONNECTED", "INTERWORKING-ALREADY-CONNECTED"], timeout=15) if ev is None: raise Exception("Connection timed out") if "INTERWORKING-ALREADY-CONNECTED" in ev: raise Exception("No roam to higher priority network") if bssid2 not in ev: raise Exception("Unexpected network selected") def test_ap_hs20_network_preference2(dev, apdev): """Hotspot 2.0 network selection with preferred credential""" check_eap_capa(dev[0], "MSCHAPV2") dev[0].flush_scan_cache() bssid2 = apdev[1]['bssid'] params = hostapd.wpa2_params(ssid="home", passphrase="12345678") hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() values = {'realm': "example.com", 'username': "hs20-test", 'password': "password", 'domain': "example.com", 'priority': "1"} dev[0].add_cred_values(values) id = dev[0].add_network() dev[0].set_network_quoted(id, "ssid", "home") dev[0].set_network_quoted(id, "psk", "12345678") dev[0].request("ENABLE_NETWORK %s no-connect" % id) dev[0].scan_for_bss(bssid2, freq="2412") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_connected(timeout=15) if bssid2 not in ev: raise Exception("Unexpected network selected") bssid = apdev[0]['bssid'] params = hs20_ap_params() hostapd.add_ap(apdev[0], params) dev[0].scan_for_bss(bssid, freq="2412") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["CTRL-EVENT-CONNECTED", "INTERWORKING-ALREADY-CONNECTED"], timeout=15) if ev is None: raise Exception("Connection timed out") if "INTERWORKING-ALREADY-CONNECTED" in ev: raise Exception("No roam to higher priority network") if bssid not in ev: raise Exception("Unexpected network selected") def test_ap_hs20_network_preference3(dev, apdev): """Hotspot 2.0 network selection with two credential (one preferred)""" check_eap_capa(dev[0], "MSCHAPV2") dev[0].flush_scan_cache() bssid = apdev[0]['bssid'] params = hs20_ap_params() hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20b") params['nai_realm'] = "0,example.org,13[5:6],21[2:4][5:7]" hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() values = {'realm': "example.com", 'username': "hs20-test", 'password': "password", 'priority': "1"} dev[0].add_cred_values(values) values = {'realm': "example.org", 'username': "hs20-test", 'password': "password"} id = dev[0].add_cred_values(values) dev[0].scan_for_bss(bssid, freq="2412") dev[0].scan_for_bss(bssid2, freq="2412") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_connected(timeout=15) if bssid not in ev: raise Exception("Unexpected network selected") dev[0].set_cred(id, "priority", "2") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["CTRL-EVENT-CONNECTED", "INTERWORKING-ALREADY-CONNECTED"], timeout=15) if ev is None: raise Exception("Connection timed out") if "INTERWORKING-ALREADY-CONNECTED" in ev: raise Exception("No roam to higher priority network") if bssid2 not in ev: raise Exception("Unexpected network selected") def test_ap_hs20_network_preference4(dev, apdev): """Hotspot 2.0 network selection with username vs. SIM credential""" check_eap_capa(dev[0], "MSCHAPV2") dev[0].flush_scan_cache() bssid = apdev[0]['bssid'] params = hs20_ap_params() hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20b") params['hessid'] = bssid2 params['anqp_3gpp_cell_net'] = "555,444" params['domain_name'] = "wlan.mnc444.mcc555.3gppnetwork.org" hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() values = {'realm': "example.com", 'username': "hs20-test", 'password': "password", 'priority': "1"} dev[0].add_cred_values(values) values = {'imsi': "555444-333222111", 'eap': "SIM", 'milenage': "5122250214c33e723a5dd523fc145fc0:981d464c7c52eb6e5036234984ad0bcf:000000000123"} id = dev[0].add_cred_values(values) dev[0].scan_for_bss(bssid, freq="2412") dev[0].scan_for_bss(bssid2, freq="2412") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_connected(timeout=15) if bssid not in ev: raise Exception("Unexpected network selected") dev[0].set_cred(id, "priority", "2") dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["CTRL-EVENT-CONNECTED", "INTERWORKING-ALREADY-CONNECTED"], timeout=15) if ev is None: raise Exception("Connection timed out") if "INTERWORKING-ALREADY-CONNECTED" in ev: raise Exception("No roam to higher priority network") if bssid2 not in ev: raise Exception("Unexpected network selected") def test_ap_hs20_interworking_select_blocking_scan(dev, apdev): """Ongoing INTERWORKING_SELECT blocking SCAN""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() values = {'realm': "example.com", 'username': "hs20-test", 'password': "password", 'domain': "example.com"} dev[0].add_cred_values(values) dev[0].scan_for_bss(bssid, freq="2412") dev[0].request("INTERWORKING_SELECT auto freq=2412") if "FAIL-BUSY" not in dev[0].request("SCAN"): raise Exception("Unexpected SCAN command result") dev[0].wait_connected(timeout=15) def test_ap_hs20_fetch_osu(dev, apdev): """Hotspot 2.0 OSU provider and icon fetch""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hs20_icon'] = "128:80:zxx:image/png:w1fi_logo:w1fi_logo.png" params['osu_ssid'] = '"HS 2.0 OSU open"' params['osu_method_list'] = "1" params['osu_friendly_name'] = ["eng:Test OSU", "fin:Testi-OSU"] params['osu_icon'] = "w1fi_logo" params['osu_service_desc'] = ["eng:Example services", "fin:Esimerkkipalveluja"] params['osu_server_uri'] = "https://example.com/osu/" hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20b") params['hessid'] = bssid2 params['hs20_icon'] = "128:80:zxx:image/png:w1fi_logo:w1fi_logo.png" params['osu_ssid'] = '"HS 2.0 OSU OSEN"' params['osu_method_list'] = "0" params['osu_nai'] = "osen@example.com" params['osu_friendly_name'] = ["eng:Test2 OSU", "fin:Testi2-OSU"] params['osu_icon'] = "w1fi_logo" params['osu_service_desc'] = ["eng:Example services2", "fin:Esimerkkipalveluja2"] params['osu_server_uri'] = "https://example.org/osu/" hostapd.add_ap(apdev[1], params) with open("w1fi_logo.png", "rb") as f: orig_logo = f.read() dev[0].hs20_enable() dir = "/tmp/osu-fetch" if os.path.isdir(dir): files = [f for f in os.listdir(dir) if f.startswith("osu-")] for f in files: os.remove(dir + "/" + f) else: try: os.makedirs(dir) except: pass try: dev[1].scan_for_bss(bssid, freq="2412") dev[2].scan_for_bss(bssid, freq="2412") dev[0].request("SET osu_dir " + dir) dev[0].request("FETCH_OSU") if "FAIL" not in dev[1].request("HS20_ICON_REQUEST foo w1fi_logo"): raise Exception("Invalid HS20_ICON_REQUEST accepted") if "OK" not in dev[1].request("HS20_ICON_REQUEST " + bssid + " w1fi_logo"): raise Exception("HS20_ICON_REQUEST failed") if "OK" not in dev[2].request("REQ_HS20_ICON " + bssid + " w1fi_logo"): raise Exception("REQ_HS20_ICON failed") icons = 0 while True: ev = dev[0].wait_event(["OSU provider fetch completed", "RX-HS20-ANQP-ICON"], timeout=15) if ev is None: raise Exception("Timeout on OSU fetch") if "OSU provider fetch completed" in ev: break if "RX-HS20-ANQP-ICON" in ev: with open(ev.split(' ')[1], "rb") as f: logo = f.read() if logo == orig_logo: icons += 1 with open(dir + "/osu-providers.txt", "r") as f: prov = f.read() logger.debug("osu-providers.txt: " + prov) if "OSU-PROVIDER " + bssid not in prov: raise Exception("Missing OSU_PROVIDER(1)") if "OSU-PROVIDER " + bssid2 not in prov: raise Exception("Missing OSU_PROVIDER(2)") finally: files = [f for f in os.listdir(dir) if f.startswith("osu-")] for f in files: os.remove(dir + "/" + f) os.rmdir(dir) if icons != 2: raise Exception("Unexpected number of icons fetched") ev = dev[1].wait_event(["GAS-QUERY-START"], timeout=5) if ev is None: raise Exception("Timeout on GAS-QUERY-DONE") ev = dev[1].wait_event(["GAS-QUERY-DONE"], timeout=5) if ev is None: raise Exception("Timeout on GAS-QUERY-DONE") if "freq=2412 status_code=0 result=SUCCESS" not in ev: raise Exception("Unexpected GAS-QUERY-DONE: " + ev) ev = dev[1].wait_event(["RX-HS20-ANQP"], timeout=15) if ev is None: raise Exception("Timeout on icon fetch") if "Icon Binary File" not in ev: raise Exception("Unexpected ANQP element") ev = dev[2].wait_event(["RX-HS20-ICON"], timeout=5) if ev is None: raise Exception("Timeout on RX-HS20-ICON") event_icon_len = ev.split(' ')[3] if " w1fi_logo " not in ev: raise Exception("RX-HS20-ICON did not have the expected file name") if bssid not in ev: raise Exception("RX-HS20-ICON did not have the expected BSSID") if "FAIL" in dev[2].request("GET_HS20_ICON " + bssid + " w1fi_logo 0 10"): raise Exception("GET_HS20_ICON 0..10 failed") if "FAIL" in dev[2].request("GET_HS20_ICON " + bssid + " w1fi_logo 5 10"): raise Exception("GET_HS20_ICON 5..15 failed") if "FAIL" not in dev[2].request("GET_HS20_ICON " + bssid + " w1fi_logo 100000 10"): raise Exception("Unexpected success of GET_HS20_ICON with too large offset") if "FAIL" not in dev[2].request("GET_HS20_ICON " + bssid + " no_such_logo 0 10"): raise Exception("GET_HS20_ICON for not existing icon succeeded") if "FAIL" not in dev[2].request("GET_HS20_ICON " + bssid + " w1fi_logo 0 3070"): raise Exception("GET_HS20_ICON with too many output bytes to fit the buffer succeeded") if "FAIL" not in dev[2].request("GET_HS20_ICON " + bssid + " w1fi_logo 0 0"): raise Exception("GET_HS20_ICON 0..0 succeeded") icon = b'' pos = 0 while True: if pos > 100000: raise Exception("Unexpectedly long icon") res = dev[2].request("GET_HS20_ICON " + bssid + " w1fi_logo %d 1000" % pos) if res.startswith("FAIL"): break icon += base64.b64decode(res) pos += 1000 hex = binascii.hexlify(icon).decode() if not hex.startswith("0009696d6167652f706e677d1d"): raise Exception("Unexpected beacon binary header: " + hex) with open('w1fi_logo.png', 'rb') as f: data = f.read() if icon[13:] != data: raise Exception("Unexpected icon data") if len(icon) != int(event_icon_len): raise Exception("Unexpected RX-HS20-ICON event length: " + event_icon_len) for i in range(3): if "OK" not in dev[i].request("REQ_HS20_ICON " + bssid + " w1fi_logo"): raise Exception("REQ_HS20_ICON failed [2]") for i in range(3): ev = dev[i].wait_event(["RX-HS20-ICON"], timeout=5) if ev is None: raise Exception("Timeout on RX-HS20-ICON [2]") if "FAIL" not in dev[2].request("DEL_HS20_ICON foo w1fi_logo"): raise Exception("Invalid DEL_HS20_ICON accepted") if "OK" not in dev[2].request("DEL_HS20_ICON " + bssid + " w1fi_logo"): raise Exception("DEL_HS20_ICON failed") if "OK" not in dev[1].request("DEL_HS20_ICON " + bssid): raise Exception("DEL_HS20_ICON failed") if "OK" not in dev[0].request("DEL_HS20_ICON "): raise Exception("DEL_HS20_ICON failed") for i in range(3): if "FAIL" not in dev[i].request("DEL_HS20_ICON "): raise Exception("DEL_HS20_ICON accepted when no icons left") def test_ap_hs20_fetch_osu_no_info(dev, apdev): """Hotspot 2.0 OSU provider and no AP with info""" bssid = apdev[0]['bssid'] params = hs20_ap_params() hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dir = "/tmp/osu-fetch" if os.path.isdir(dir): files = [f for f in os.listdir(dir) if f.startswith("osu-")] for f in files: os.remove(dir + "/" + f) else: try: os.makedirs(dir) except: pass dev[0].scan_for_bss(bssid, freq="2412") try: dev[0].request("SET osu_dir " + dir) dev[0].request("FETCH_OSU") ev = dev[0].wait_event(["OSU provider fetch completed"], timeout=30) if ev is None: raise Exception("Timeout on OSU fetch") finally: files = [f for f in os.listdir(dir) if f.startswith("osu-")] for f in files: os.remove(dir + "/" + f) os.rmdir(dir) def test_ap_hs20_fetch_osu_no_icon(dev, apdev): """Hotspot 2.0 OSU provider and no icon found""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hs20_icon'] = "128:80:zxx:image/png:w1fi_logo:w1fi_logo-no-file.png" params['osu_ssid'] = '"HS 2.0 OSU open"' params['osu_method_list'] = "1" params['osu_friendly_name'] = ["eng:Test OSU", "fin:Testi-OSU"] params['osu_icon'] = "w1fi_logo" params['osu_service_desc'] = ["eng:Example services", "fin:Esimerkkipalveluja"] params['osu_server_uri'] = "https://example.com/osu/" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dir = "/tmp/osu-fetch" if os.path.isdir(dir): files = [f for f in os.listdir(dir) if f.startswith("osu-")] for f in files: os.remove(dir + "/" + f) else: try: os.makedirs(dir) except: pass dev[0].scan_for_bss(bssid, freq="2412") try: dev[0].request("SET osu_dir " + dir) dev[0].request("FETCH_OSU") ev = dev[0].wait_event(["OSU provider fetch completed"], timeout=30) if ev is None: raise Exception("Timeout on OSU fetch") finally: files = [f for f in os.listdir(dir) if f.startswith("osu-")] for f in files: os.remove(dir + "/" + f) os.rmdir(dir) def test_ap_hs20_fetch_osu_single_ssid(dev, apdev): """Hotspot 2.0 OSU provider and single SSID""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hs20_icon'] = "128:80:zxx:image/png:w1fi_logo:w1fi_logo-no-file.png" params['osu_ssid'] = '"HS 2.0 OSU open"' params['osu_method_list'] = "1" params['osu_friendly_name'] = ["eng:Test OSU", "fin:Testi-OSU"] params['osu_nai2'] = "osen@example.com" params['osu_icon'] = "w1fi_logo" params['osu_service_desc'] = ["eng:Example services", "fin:Esimerkkipalveluja"] params['osu_server_uri'] = "https://example.com/osu/" params['wpa_key_mgmt'] = "WPA-EAP OSEN" hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dir = "/tmp/osu-fetch" if os.path.isdir(dir): files = [f for f in os.listdir(dir) if f.startswith("osu-")] for f in files: os.remove(dir + "/" + f) else: try: os.makedirs(dir) except: pass dev[0].scan_for_bss(bssid, freq="2412") try: dev[0].request("SET osu_dir " + dir) dev[0].request("FETCH_OSU") ev = dev[0].wait_event(["OSU provider fetch completed"], timeout=30) if ev is None: raise Exception("Timeout on OSU fetch") osu_ssid = False osu_ssid2 = False osu_nai = False osu_nai2 = False with open(os.path.join(dir, "osu-providers.txt"), "r") as f: for l in f.readlines(): logger.info(l.strip()) if l.strip() == "osu_ssid=HS 2.0 OSU open": osu_ssid = True if l.strip() == "osu_ssid2=test-hs20": osu_ssid2 = True if l.strip().startswith("osu_nai="): osu_nai = True if l.strip() == "osu_nai2=osen@example.com": osu_nai2 = True if not osu_ssid: raise Exception("osu_ssid not reported") if not osu_ssid2: raise Exception("osu_ssid2 not reported") if osu_nai: raise Exception("osu_nai reported unexpectedly") if not osu_nai2: raise Exception("osu_nai2 not reported") finally: files = [f for f in os.listdir(dir) if f.startswith("osu-")] for f in files: os.remove(dir + "/" + f) os.rmdir(dir) def test_ap_hs20_fetch_osu_single_ssid2(dev, apdev): """Hotspot 2.0 OSU provider and single SSID (two OSU providers)""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hs20_icon'] = "128:80:zxx:image/png:w1fi_logo:w1fi_logo-no-file.png" params['osu_ssid'] = '"HS 2.0 OSU open"' params['osu_method_list'] = "1" params['osu_friendly_name'] = ["eng:Test OSU", "fin:Testi-OSU"] params['osu_nai2'] = "osen@example.com" params['osu_icon'] = "w1fi_logo" params['osu_service_desc'] = ["eng:Example services", "fin:Esimerkkipalveluja"] params['osu_server_uri'] = "https://example.com/osu/" params['wpa_key_mgmt'] = "WPA-EAP OSEN" hapd = hostapd.add_ap(apdev[0], params, no_enable=True) hapd.set('osu_server_uri', 'https://another.example.com/osu/') hapd.set('osu_method_list', "1") hapd.set('osu_nai2', "osen@another.example.com") hapd.enable() dev[0].hs20_enable() dir = "/tmp/osu-fetch" if os.path.isdir(dir): files = [f for f in os.listdir(dir) if f.startswith("osu-")] for f in files: os.remove(dir + "/" + f) else: try: os.makedirs(dir) except: pass dev[0].scan_for_bss(bssid, freq="2412") try: dev[0].request("SET osu_dir " + dir) dev[0].request("FETCH_OSU") ev = dev[0].wait_event(["OSU provider fetch completed"], timeout=30) if ev is None: raise Exception("Timeout on OSU fetch") osu_ssid = False osu_ssid2 = False osu_nai = False osu_nai2 = False osu_nai2b = False with open(os.path.join(dir, "osu-providers.txt"), "r") as f: for l in f.readlines(): logger.info(l.strip()) if l.strip() == "osu_ssid=HS 2.0 OSU open": osu_ssid = True if l.strip() == "osu_ssid2=test-hs20": osu_ssid2 = True if l.strip().startswith("osu_nai="): osu_nai = True if l.strip() == "osu_nai2=osen@example.com": osu_nai2 = True if l.strip() == "osu_nai2=osen@another.example.com": osu_nai2b = True if not osu_ssid: raise Exception("osu_ssid not reported") if not osu_ssid2: raise Exception("osu_ssid2 not reported") if osu_nai: raise Exception("osu_nai reported unexpectedly") if not osu_nai2: raise Exception("osu_nai2 not reported") if not osu_nai2b: raise Exception("osu_nai2b not reported") finally: files = [f for f in os.listdir(dir) if f.startswith("osu-")] for f in files: os.remove(dir + "/" + f) os.rmdir(dir) def get_icon(dev, bssid, iconname): icon = b'' pos = 0 while True: if pos > 100000: raise Exception("Unexpectedly long icon") res = dev.request("GET_HS20_ICON " + bssid + " " + iconname + " %d 3000" % pos) if res.startswith("FAIL"): break icon += base64.b64decode(res) pos += 3000 if len(icon) < 13: raise Exception("Too short GET_HS20_ICON response") return icon[0:13], icon[13:] def test_ap_hs20_req_hs20_icon(dev, apdev): """Hotspot 2.0 OSU provider and multi-icon fetch with REQ_HS20_ICON""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hs20_icon'] = ["128:80:zxx:image/png:w1fi_logo:w1fi_logo.png", "128:80:zxx:image/png:test_logo:auth_serv/sha512-server.pem"] params['osu_ssid'] = '"HS 2.0 OSU open"' params['osu_method_list'] = "1" params['osu_friendly_name'] = ["eng:Test OSU", "fin:Testi-OSU"] params['osu_icon'] = ["w1fi_logo", "w1fi_logo2"] params['osu_service_desc'] = ["eng:Example services", "fin:Esimerkkipalveluja"] params['osu_server_uri'] = "https://example.com/osu/" hostapd.add_ap(apdev[0], params) dev[0].scan_for_bss(bssid, freq="2412") run_req_hs20_icon(dev, bssid) def run_req_hs20_icon(dev, bssid): # First, fetch two icons from the AP to wpa_supplicant if "OK" not in dev[0].request("REQ_HS20_ICON " + bssid + " w1fi_logo"): raise Exception("REQ_HS20_ICON failed") ev = dev[0].wait_event(["RX-HS20-ICON"], timeout=5) if ev is None: raise Exception("Timeout on RX-HS20-ICON (1)") if "OK" not in dev[0].request("REQ_HS20_ICON " + bssid + " test_logo"): raise Exception("REQ_HS20_ICON failed") ev = dev[0].wait_event(["RX-HS20-ICON"], timeout=5) if ev is None: raise Exception("Timeout on RX-HS20-ICON (2)") # Then, fetch the icons from wpa_supplicant for validation hdr, data1 = get_icon(dev[0], bssid, "w1fi_logo") hdr, data2 = get_icon(dev[0], bssid, "test_logo") with open('w1fi_logo.png', 'rb') as f: data = f.read() if data1 != data: raise Exception("Unexpected icon data (1)") with open('auth_serv/sha512-server.pem', 'rb') as f: data = f.read() if data2 != data: raise Exception("Unexpected icon data (2)") # Finally, delete the icons from wpa_supplicant if "OK" not in dev[0].request("DEL_HS20_ICON " + bssid + " w1fi_logo"): raise Exception("DEL_HS20_ICON failed") if "OK" not in dev[0].request("DEL_HS20_ICON " + bssid + " test_logo"): raise Exception("DEL_HS20_ICON failed") def test_ap_hs20_req_operator_icon(dev, apdev): """Hotspot 2.0 operator icons""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hs20_icon'] = ["128:80:zxx:image/png:w1fi_logo:w1fi_logo.png", "500:300:fi:image/png:test_logo:auth_serv/sha512-server.pem"] params['operator_icon'] = ["w1fi_logo", "unknown_logo", "test_logo"] hostapd.add_ap(apdev[0], params) value = struct.pack(' 0: raise Exception("Unexpected neighbor entries after disconnect") def test_ap_hs20_hidden_ssid_in_scan_res(dev, apdev): """Hotspot 2.0 connection with hidden SSId in scan results""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] hapd = hostapd.add_ap(apdev[0], {"ssid": 'secret', "ignore_broadcast_ssid": "1"}) dev[0].scan_for_bss(bssid, freq=2412) hapd.disable() hapd_global = hostapd.HostapdGlobal(apdev[0]) hapd_global.flush() hapd_global.remove(apdev[0]['ifname']) params = hs20_ap_params() params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_connect(dev[0], bssid, "TTLS") # clear BSS table to avoid issues in following test cases dev[0].request("DISCONNECT") dev[0].wait_disconnected() hapd.disable() dev[0].flush_scan_cache() dev[0].flush_scan_cache() def test_ap_hs20_proxyarp(dev, apdev): """Hotspot 2.0 and ProxyARP""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_proxyarp(dev, apdev) finally: subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'down'], stderr=open('/dev/null', 'w')) subprocess.call(['brctl', 'delbr', 'ap-br0'], stderr=open('/dev/null', 'w')) def _test_ap_hs20_proxyarp_dgaf(dev, apdev, disabled): bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['disable_dgaf'] = '1' if disabled else '0' params['proxy_arp'] = '1' params['na_mcast_to_ucast'] = '1' params['ap_isolate'] = '1' params['bridge'] = 'ap-br0' hapd = hostapd.add_ap(apdev[0], params, no_enable=True) try: hapd.enable() except: # For now, do not report failures due to missing kernel support raise HwsimSkip("Could not start hostapd - assume proxyarp not supported in kernel version") ev = hapd.wait_event(["AP-ENABLED"], timeout=10) if ev is None: raise Exception("AP startup timed out") dev[0].hs20_enable() subprocess.call(['brctl', 'setfd', 'ap-br0', '0']) subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'up']) id = dev[0].add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com", 'update_identifier': "1234"}) interworking_select(dev[0], bssid, "home", freq="2412") interworking_connect(dev[0], bssid, "TTLS") dev[1].connect("test-hs20", key_mgmt="WPA-EAP", eap="TTLS", identity="hs20-test", password="password", ca_cert="auth_serv/ca.pem", phase2="auth=MSCHAPV2", scan_freq="2412") time.sleep(0.1) addr0 = dev[0].p2p_interface_addr() src_ll_opt0 = b"\x01\x01" + binascii.unhexlify(addr0.replace(':', '')) pkt = build_ns(src_ll=addr0, ip_src="aaaa:bbbb:cccc::2", ip_dst="ff02::1:ff00:2", target="aaaa:bbbb:cccc::2", opt=src_ll_opt0) if "OK" not in dev[0].request("DATA_TEST_FRAME " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") pkt = build_ra(src_ll=apdev[0]['bssid'], ip_src="aaaa:bbbb:cccc::33", ip_dst="ff01::1") if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") pkt = build_na(src_ll=apdev[0]['bssid'], ip_src="aaaa:bbbb:cccc::44", ip_dst="ff01::1", target="aaaa:bbbb:cccc::55") if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") pkt = build_dhcp_ack(dst_ll="ff:ff:ff:ff:ff:ff", src_ll=bssid, ip_src="192.168.1.1", ip_dst="255.255.255.255", yiaddr="192.168.1.123", chaddr=addr0) if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") # another copy for additional code coverage pkt = build_dhcp_ack(dst_ll=addr0, src_ll=bssid, ip_src="192.168.1.1", ip_dst="255.255.255.255", yiaddr="192.168.1.123", chaddr=addr0) if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") matches = get_permanent_neighbors("ap-br0") logger.info("After connect: " + str(matches)) if len(matches) != 2: raise Exception("Unexpected number of neighbor entries after connect") if 'aaaa:bbbb:cccc::2 dev ap-br0 lladdr 02:00:00:00:00:00 PERMANENT' not in matches: raise Exception("dev0 addr missing") if '192.168.1.123 dev ap-br0 lladdr 02:00:00:00:00:00 PERMANENT' not in matches: raise Exception("dev0 IPv4 addr missing") dev[0].request("DISCONNECT") dev[1].request("DISCONNECT") time.sleep(0.5) matches = get_permanent_neighbors("ap-br0") logger.info("After disconnect: " + str(matches)) if len(matches) > 0: raise Exception("Unexpected neighbor entries after disconnect") def test_ap_hs20_proxyarp_disable_dgaf(dev, apdev): """Hotspot 2.0 and ProxyARP with DGAF disabled""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_proxyarp_dgaf(dev, apdev, True) finally: subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'down'], stderr=open('/dev/null', 'w')) subprocess.call(['brctl', 'delbr', 'ap-br0'], stderr=open('/dev/null', 'w')) def test_ap_hs20_proxyarp_enable_dgaf(dev, apdev): """Hotspot 2.0 and ProxyARP with DGAF enabled""" check_eap_capa(dev[0], "MSCHAPV2") try: _test_ap_hs20_proxyarp_dgaf(dev, apdev, False) finally: subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'down'], stderr=open('/dev/null', 'w')) subprocess.call(['brctl', 'delbr', 'ap-br0'], stderr=open('/dev/null', 'w')) def ip_checksum(buf): sum = 0 if len(buf) & 0x01: buf += b'\x00' for i in range(0, len(buf), 2): val, = struct.unpack('H', buf[i:i+2]) sum += val while (sum >> 16): sum = (sum & 0xffff) + (sum >> 16) return struct.pack('H', ~sum & 0xffff) def ipv6_solicited_node_mcaddr(target): prefix = socket.inet_pton(socket.AF_INET6, "ff02::1:ff00:0") mask = socket.inet_pton(socket.AF_INET6, "::ff:ffff") _target = socket.inet_pton(socket.AF_INET6, target) p = struct.unpack('4I', prefix) m = struct.unpack('4I', mask) t = struct.unpack('4I', _target) res = (p[0] | (t[0] & m[0]), p[1] | (t[1] & m[1]), p[2] | (t[2] & m[2]), p[3] | (t[3] & m[3])) return socket.inet_ntop(socket.AF_INET6, struct.pack('4I', *res)) def build_icmpv6(ipv6_addrs, type, code, payload): start = struct.pack("BB", type, code) end = payload icmp = start + b'\x00\x00' + end pseudo = ipv6_addrs + struct.pack(">LBBBB", len(icmp), 0, 0, 0, 58) csum = ip_checksum(pseudo + icmp) return start + csum + end def build_ra(src_ll, ip_src, ip_dst, cur_hop_limit=0, router_lifetime=0, reachable_time=0, retrans_timer=0, opt=None): link_mc = binascii.unhexlify("3333ff000002") _src_ll = binascii.unhexlify(src_ll.replace(':', '')) proto = b'\x86\xdd' ehdr = link_mc + _src_ll + proto _ip_src = socket.inet_pton(socket.AF_INET6, ip_src) _ip_dst = socket.inet_pton(socket.AF_INET6, ip_dst) adv = struct.pack('>BBHLL', cur_hop_limit, 0, router_lifetime, reachable_time, retrans_timer) if opt: payload = adv + opt else: payload = adv icmp = build_icmpv6(_ip_src + _ip_dst, 134, 0, payload) ipv6 = struct.pack('>BBBBHBB', 0x60, 0, 0, 0, len(icmp), 58, 255) ipv6 += _ip_src + _ip_dst return ehdr + ipv6 + icmp def build_ns(src_ll, ip_src, ip_dst, target, opt=None): link_mc = binascii.unhexlify("3333ff000002") _src_ll = binascii.unhexlify(src_ll.replace(':', '')) proto = b'\x86\xdd' ehdr = link_mc + _src_ll + proto _ip_src = socket.inet_pton(socket.AF_INET6, ip_src) if ip_dst is None: ip_dst = ipv6_solicited_node_mcaddr(target) _ip_dst = socket.inet_pton(socket.AF_INET6, ip_dst) reserved = b'\x00\x00\x00\x00' _target = socket.inet_pton(socket.AF_INET6, target) if opt: payload = reserved + _target + opt else: payload = reserved + _target icmp = build_icmpv6(_ip_src + _ip_dst, 135, 0, payload) ipv6 = struct.pack('>BBBBHBB', 0x60, 0, 0, 0, len(icmp), 58, 255) ipv6 += _ip_src + _ip_dst return ehdr + ipv6 + icmp def send_ns(dev, src_ll=None, target=None, ip_src=None, ip_dst=None, opt=None, hapd_bssid=None): if hapd_bssid: if src_ll is None: src_ll = hapd_bssid cmd = "DATA_TEST_FRAME ifname=ap-br0 " else: if src_ll is None: src_ll = dev.p2p_interface_addr() cmd = "DATA_TEST_FRAME " if opt is None: opt = b"\x01\x01" + binascii.unhexlify(src_ll.replace(':', '')) pkt = build_ns(src_ll=src_ll, ip_src=ip_src, ip_dst=ip_dst, target=target, opt=opt) if "OK" not in dev.request(cmd + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") def build_na(src_ll, ip_src, ip_dst, target, opt=None, flags=0): link_mc = binascii.unhexlify("3333ff000002") _src_ll = binascii.unhexlify(src_ll.replace(':', '')) proto = b'\x86\xdd' ehdr = link_mc + _src_ll + proto _ip_src = socket.inet_pton(socket.AF_INET6, ip_src) _ip_dst = socket.inet_pton(socket.AF_INET6, ip_dst) _target = socket.inet_pton(socket.AF_INET6, target) if opt: payload = struct.pack('>Bxxx', flags) + _target + opt else: payload = struct.pack('>Bxxx', flags) + _target icmp = build_icmpv6(_ip_src + _ip_dst, 136, 0, payload) ipv6 = struct.pack('>BBBBHBB', 0x60, 0, 0, 0, len(icmp), 58, 255) ipv6 += _ip_src + _ip_dst return ehdr + ipv6 + icmp def send_na(dev, src_ll=None, target=None, ip_src=None, ip_dst=None, opt=None, hapd_bssid=None): if hapd_bssid: if src_ll is None: src_ll = hapd_bssid cmd = "DATA_TEST_FRAME ifname=ap-br0 " else: if src_ll is None: src_ll = dev.p2p_interface_addr() cmd = "DATA_TEST_FRAME " pkt = build_na(src_ll=src_ll, ip_src=ip_src, ip_dst=ip_dst, target=target, opt=opt) if "OK" not in dev.request(cmd + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") def build_dhcp_ack(dst_ll, src_ll, ip_src, ip_dst, yiaddr, chaddr, subnet_mask="255.255.255.0", truncated_opt=False, wrong_magic=False, force_tot_len=None, no_dhcp=False, udp_checksum=True): _dst_ll = binascii.unhexlify(dst_ll.replace(':', '')) _src_ll = binascii.unhexlify(src_ll.replace(':', '')) proto = b'\x08\x00' ehdr = _dst_ll + _src_ll + proto _ip_src = socket.inet_pton(socket.AF_INET, ip_src) _ip_dst = socket.inet_pton(socket.AF_INET, ip_dst) _subnet_mask = socket.inet_pton(socket.AF_INET, subnet_mask) _ciaddr = b'\x00\x00\x00\x00' _yiaddr = socket.inet_pton(socket.AF_INET, yiaddr) _siaddr = b'\x00\x00\x00\x00' _giaddr = b'\x00\x00\x00\x00' _chaddr = binascii.unhexlify(chaddr.replace(':', '') + "00000000000000000000") payload = struct.pack('>BBBBL3BB', 2, 1, 6, 0, 12345, 0, 0, 0, 0) payload += _ciaddr + _yiaddr + _siaddr + _giaddr + _chaddr + 192*b'\x00' # magic if wrong_magic: payload += b'\x63\x82\x53\x00' else: payload += b'\x63\x82\x53\x63' if truncated_opt: payload += b'\x22\xff\x00' # Option: DHCP Message Type = ACK payload += b'\x35\x01\x05' # Pad Option payload += b'\x00' # Option: Subnet Mask payload += b'\x01\x04' + _subnet_mask # Option: Time Offset payload += struct.pack('>BBL', 2, 4, 0) # End Option payload += b'\xff' # Pad Option payload += b'\x00\x00\x00\x00' if no_dhcp: payload = struct.pack('>BBBBL3BB', 2, 1, 6, 0, 12345, 0, 0, 0, 0) payload += _ciaddr + _yiaddr + _siaddr + _giaddr + _chaddr + 192*b'\x00' if udp_checksum: pseudohdr = _ip_src + _ip_dst + struct.pack('>BBH', 0, 17, 8 + len(payload)) udphdr = struct.pack('>HHHH', 67, 68, 8 + len(payload), 0) checksum, = struct.unpack('>H', ip_checksum(pseudohdr + udphdr + payload)) else: checksum = 0 udp = struct.pack('>HHHH', 67, 68, 8 + len(payload), checksum) + payload if force_tot_len: tot_len = force_tot_len else: tot_len = 20 + len(udp) start = struct.pack('>BBHHBBBB', 0x45, 0, tot_len, 0, 0, 0, 128, 17) ipv4 = start + b'\x00\x00' + _ip_src + _ip_dst csum = ip_checksum(ipv4) ipv4 = start + csum + _ip_src + _ip_dst return ehdr + ipv4 + udp def build_arp(dst_ll, src_ll, opcode, sender_mac, sender_ip, target_mac, target_ip): _dst_ll = binascii.unhexlify(dst_ll.replace(':', '')) _src_ll = binascii.unhexlify(src_ll.replace(':', '')) proto = b'\x08\x06' ehdr = _dst_ll + _src_ll + proto _sender_mac = binascii.unhexlify(sender_mac.replace(':', '')) _sender_ip = socket.inet_pton(socket.AF_INET, sender_ip) _target_mac = binascii.unhexlify(target_mac.replace(':', '')) _target_ip = socket.inet_pton(socket.AF_INET, target_ip) arp = struct.pack('>HHBBH', 1, 0x0800, 6, 4, opcode) arp += _sender_mac + _sender_ip arp += _target_mac + _target_ip return ehdr + arp def send_arp(dev, dst_ll="ff:ff:ff:ff:ff:ff", src_ll=None, opcode=1, sender_mac=None, sender_ip="0.0.0.0", target_mac="00:00:00:00:00:00", target_ip="0.0.0.0", hapd_bssid=None): if hapd_bssid: if src_ll is None: src_ll = hapd_bssid if sender_mac is None: sender_mac = hapd_bssid cmd = "DATA_TEST_FRAME ifname=ap-br0 " else: if src_ll is None: src_ll = dev.p2p_interface_addr() if sender_mac is None: sender_mac = dev.p2p_interface_addr() cmd = "DATA_TEST_FRAME " pkt = build_arp(dst_ll=dst_ll, src_ll=src_ll, opcode=opcode, sender_mac=sender_mac, sender_ip=sender_ip, target_mac=target_mac, target_ip=target_ip) if "OK" not in dev.request(cmd + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") def get_permanent_neighbors(ifname): cmd = subprocess.Popen(['ip', 'nei'], stdout=subprocess.PIPE) res = cmd.stdout.read().decode() cmd.stdout.close() return [line.strip() for line in res.splitlines() if "PERMANENT" in line and ifname in line] def get_bridge_macs(ifname): cmd = subprocess.Popen(['brctl', 'showmacs', ifname], stdout=subprocess.PIPE) res = cmd.stdout.read() cmd.stdout.close() return res.decode() def tshark_get_arp(cap, filter): res = run_tshark(cap, filter, ["eth.dst", "eth.src", "arp.src.hw_mac", "arp.src.proto_ipv4", "arp.dst.hw_mac", "arp.dst.proto_ipv4"], wait=False) frames = [] for l in res.splitlines(): frames.append(l.split('\t')) return frames def tshark_get_ns(cap): res = run_tshark(cap, "icmpv6.type == 135", ["eth.dst", "eth.src", "ipv6.src", "ipv6.dst", "icmpv6.nd.ns.target_address", "icmpv6.opt.linkaddr"], wait=False) frames = [] for l in res.splitlines(): frames.append(l.split('\t')) return frames def tshark_get_na(cap): res = run_tshark(cap, "icmpv6.type == 136", ["eth.dst", "eth.src", "ipv6.src", "ipv6.dst", "icmpv6.nd.na.target_address", "icmpv6.opt.linkaddr"], wait=False) frames = [] for l in res.splitlines(): frames.append(l.split('\t')) return frames def _test_proxyarp_open(dev, apdev, params, ebtables=False): cap_br = params['prefix'] + ".ap-br0.pcap" cap_dev0 = params['prefix'] + ".%s.pcap" % dev[0].ifname cap_dev1 = params['prefix'] + ".%s.pcap" % dev[1].ifname cap_dev2 = params['prefix'] + ".%s.pcap" % dev[2].ifname bssid = apdev[0]['bssid'] params = {'ssid': 'open'} params['proxy_arp'] = '1' hapd = hostapd.add_ap(apdev[0], params, no_enable=True) hapd.set("ap_isolate", "1") hapd.set('bridge', 'ap-br0') hapd.dump_monitor() try: hapd.enable() except: # For now, do not report failures due to missing kernel support raise HwsimSkip("Could not start hostapd - assume proxyarp not supported in kernel version") ev = hapd.wait_event(["AP-ENABLED", "AP-DISABLED"], timeout=10) if ev is None: raise Exception("AP startup timed out") if "AP-ENABLED" not in ev: raise Exception("AP startup failed") params2 = {'ssid': 'another'} hapd2 = hostapd.add_ap(apdev[1], params2, no_enable=True) hapd2.set('bridge', 'ap-br0') hapd2.enable() subprocess.call(['brctl', 'setfd', 'ap-br0', '0']) subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'up']) if ebtables: for chain in ['FORWARD', 'OUTPUT']: try: err = subprocess.call(['ebtables', '-A', chain, '-p', 'ARP', '-d', 'Broadcast', '-o', apdev[0]['ifname'], '-j', 'DROP']) if err != 0: raise except: raise HwsimSkip("No ebtables available") time.sleep(0.5) cmd = {} cmd[0] = WlantestCapture('ap-br0', cap_br) cmd[1] = WlantestCapture(dev[0].ifname, cap_dev0) cmd[2] = WlantestCapture(dev[1].ifname, cap_dev1) cmd[3] = WlantestCapture(dev[2].ifname, cap_dev2) dev[0].connect("open", key_mgmt="NONE", scan_freq="2412") dev[1].connect("open", key_mgmt="NONE", scan_freq="2412") dev[2].connect("another", key_mgmt="NONE", scan_freq="2412") time.sleep(1.1) brcmd = subprocess.Popen(['brctl', 'show'], stdout=subprocess.PIPE) res = brcmd.stdout.read().decode() brcmd.stdout.close() logger.info("Bridge setup: " + res) brcmd = subprocess.Popen(['brctl', 'showstp', 'ap-br0'], stdout=subprocess.PIPE) res = brcmd.stdout.read().decode() brcmd.stdout.close() logger.info("Bridge showstp: " + res) addr0 = dev[0].p2p_interface_addr() addr1 = dev[1].p2p_interface_addr() addr2 = dev[2].p2p_interface_addr() pkt = build_dhcp_ack(dst_ll="ff:ff:ff:ff:ff:ff", src_ll=bssid, ip_src="192.168.1.1", ip_dst="255.255.255.255", yiaddr="192.168.1.124", chaddr=addr0) if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") # Change address and verify unicast pkt = build_dhcp_ack(dst_ll=addr0, src_ll=bssid, ip_src="192.168.1.1", ip_dst="255.255.255.255", yiaddr="192.168.1.123", chaddr=addr0, udp_checksum=False) if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") # Not-associated client MAC address pkt = build_dhcp_ack(dst_ll="ff:ff:ff:ff:ff:ff", src_ll=bssid, ip_src="192.168.1.1", ip_dst="255.255.255.255", yiaddr="192.168.1.125", chaddr="22:33:44:55:66:77") if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") # No IP address pkt = build_dhcp_ack(dst_ll=addr1, src_ll=bssid, ip_src="192.168.1.1", ip_dst="255.255.255.255", yiaddr="0.0.0.0", chaddr=addr1) if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") # Zero subnet mask pkt = build_dhcp_ack(dst_ll=addr1, src_ll=bssid, ip_src="192.168.1.1", ip_dst="255.255.255.255", yiaddr="192.168.1.126", chaddr=addr1, subnet_mask="0.0.0.0") if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") # Truncated option pkt = build_dhcp_ack(dst_ll=addr1, src_ll=bssid, ip_src="192.168.1.1", ip_dst="255.255.255.255", yiaddr="192.168.1.127", chaddr=addr1, truncated_opt=True) if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") # Wrong magic pkt = build_dhcp_ack(dst_ll=addr1, src_ll=bssid, ip_src="192.168.1.1", ip_dst="255.255.255.255", yiaddr="192.168.1.128", chaddr=addr1, wrong_magic=True) if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") # Wrong IPv4 total length pkt = build_dhcp_ack(dst_ll=addr1, src_ll=bssid, ip_src="192.168.1.1", ip_dst="255.255.255.255", yiaddr="192.168.1.129", chaddr=addr1, force_tot_len=1000) if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") # BOOTP pkt = build_dhcp_ack(dst_ll=addr1, src_ll=bssid, ip_src="192.168.1.1", ip_dst="255.255.255.255", yiaddr="192.168.1.129", chaddr=addr1, no_dhcp=True) if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") macs = get_bridge_macs("ap-br0") logger.info("After connect (showmacs): " + str(macs)) matches = get_permanent_neighbors("ap-br0") logger.info("After connect: " + str(matches)) if len(matches) != 1: raise Exception("Unexpected number of neighbor entries after connect") if '192.168.1.123 dev ap-br0 lladdr 02:00:00:00:00:00 PERMANENT' not in matches: raise Exception("dev0 IPv4 addr missing") targets = ["192.168.1.123", "192.168.1.124", "192.168.1.125", "192.168.1.126"] for target in targets: send_arp(dev[1], sender_ip="192.168.1.100", target_ip=target) for target in targets: send_arp(hapd, hapd_bssid=bssid, sender_ip="192.168.1.101", target_ip=target) for target in targets: send_arp(dev[2], sender_ip="192.168.1.103", target_ip=target) # ARP Probe from wireless STA send_arp(dev[1], target_ip="192.168.1.127") # ARP Announcement from wireless STA send_arp(dev[1], sender_ip="192.168.1.127", target_ip="192.168.1.127") send_arp(dev[1], sender_ip="192.168.1.127", target_ip="192.168.1.127", opcode=2) macs = get_bridge_macs("ap-br0") logger.info("After ARP Probe + Announcement (showmacs): " + str(macs)) matches = get_permanent_neighbors("ap-br0") logger.info("After ARP Probe + Announcement: " + str(matches)) # ARP Request for the newly introduced IP address from wireless STA send_arp(dev[0], sender_ip="192.168.1.123", target_ip="192.168.1.127") # ARP Request for the newly introduced IP address from bridge send_arp(hapd, hapd_bssid=bssid, sender_ip="192.168.1.102", target_ip="192.168.1.127") send_arp(dev[2], sender_ip="192.168.1.103", target_ip="192.168.1.127") # ARP Probe from bridge send_arp(hapd, hapd_bssid=bssid, target_ip="192.168.1.130") send_arp(dev[2], target_ip="192.168.1.131") # ARP Announcement from bridge (not to be learned by AP for proxyarp) send_arp(hapd, hapd_bssid=bssid, sender_ip="192.168.1.130", target_ip="192.168.1.130") send_arp(hapd, hapd_bssid=bssid, sender_ip="192.168.1.130", target_ip="192.168.1.130", opcode=2) send_arp(dev[2], sender_ip="192.168.1.131", target_ip="192.168.1.131") send_arp(dev[2], sender_ip="192.168.1.131", target_ip="192.168.1.131", opcode=2) macs = get_bridge_macs("ap-br0") logger.info("After ARP Probe + Announcement (showmacs): " + str(macs)) matches = get_permanent_neighbors("ap-br0") logger.info("After ARP Probe + Announcement: " + str(matches)) # ARP Request for the newly introduced IP address from wireless STA send_arp(dev[0], sender_ip="192.168.1.123", target_ip="192.168.1.130") # ARP Response from bridge (AP does not proxy for non-wireless devices) send_arp(hapd, hapd_bssid=bssid, dst_ll=addr0, sender_ip="192.168.1.130", target_ip="192.168.1.123", opcode=2) # ARP Request for the newly introduced IP address from wireless STA send_arp(dev[0], sender_ip="192.168.1.123", target_ip="192.168.1.131") # ARP Response from bridge (AP does not proxy for non-wireless devices) send_arp(dev[2], dst_ll=addr0, sender_ip="192.168.1.131", target_ip="192.168.1.123", opcode=2) # ARP Request for the newly introduced IP address from bridge send_arp(hapd, hapd_bssid=bssid, sender_ip="192.168.1.102", target_ip="192.168.1.130") send_arp(dev[2], sender_ip="192.168.1.104", target_ip="192.168.1.131") # ARP Probe from wireless STA (duplicate address; learned through DHCP) send_arp(dev[1], target_ip="192.168.1.123") # ARP Probe from wireless STA (duplicate address; learned through ARP) send_arp(dev[0], target_ip="192.168.1.127") # Gratuitous ARP Reply for another STA's IP address send_arp(dev[0], opcode=2, sender_mac=addr0, sender_ip="192.168.1.127", target_mac=addr1, target_ip="192.168.1.127") send_arp(dev[1], opcode=2, sender_mac=addr1, sender_ip="192.168.1.123", target_mac=addr0, target_ip="192.168.1.123") # ARP Request to verify previous mapping send_arp(dev[1], sender_ip="192.168.1.127", target_ip="192.168.1.123") send_arp(dev[0], sender_ip="192.168.1.123", target_ip="192.168.1.127") try: hwsim_utils.test_connectivity_iface(dev[0], hapd, "ap-br0") except Exception as e: logger.info("test_connectibity_iface failed: " + str(e)) raise HwsimSkip("Assume kernel did not have the required patches for proxyarp") hwsim_utils.test_connectivity_iface(dev[1], hapd, "ap-br0") hwsim_utils.test_connectivity(dev[0], dev[1]) dev[0].request("DISCONNECT") dev[1].request("DISCONNECT") time.sleep(1.5) for i in range(len(cmd)): cmd[i].close() time.sleep(0.1) macs = get_bridge_macs("ap-br0") logger.info("After disconnect (showmacs): " + str(macs)) matches = get_permanent_neighbors("ap-br0") logger.info("After disconnect: " + str(matches)) if len(matches) > 0: raise Exception("Unexpected neighbor entries after disconnect") if ebtables: cmd = subprocess.Popen(['ebtables', '-L', '--Lc'], stdout=subprocess.PIPE) res = cmd.stdout.read().decode() cmd.stdout.close() logger.info("ebtables results:\n" + res) # Verify that expected ARP messages were seen and no unexpected # ARP messages were seen. arp_req = tshark_get_arp(cap_dev0, "arp.opcode == 1") arp_reply = tshark_get_arp(cap_dev0, "arp.opcode == 2") logger.info("dev0 seen ARP requests:\n" + str(arp_req)) logger.info("dev0 seen ARP replies:\n" + str(arp_reply)) if ['ff:ff:ff:ff:ff:ff', addr1, addr1, '192.168.1.100', '00:00:00:00:00:00', '192.168.1.123'] in arp_req: raise Exception("dev0 saw ARP request from dev1") if ['ff:ff:ff:ff:ff:ff', addr2, addr2, '192.168.1.103', '00:00:00:00:00:00', '192.168.1.123'] in arp_req: raise Exception("dev0 saw ARP request from dev2") # TODO: Uncomment once fixed in kernel #if ['ff:ff:ff:ff:ff:ff', bssid, # bssid, '192.168.1.101', # '00:00:00:00:00:00', '192.168.1.123'] in arp_req: # raise Exception("dev0 saw ARP request from br") if ebtables: for req in arp_req: if req[1] != addr0: raise Exception("Unexpected foreign ARP request on dev0") arp_req = tshark_get_arp(cap_dev1, "arp.opcode == 1") arp_reply = tshark_get_arp(cap_dev1, "arp.opcode == 2") logger.info("dev1 seen ARP requests:\n" + str(arp_req)) logger.info("dev1 seen ARP replies:\n" + str(arp_reply)) if ['ff:ff:ff:ff:ff:ff', addr2, addr2, '192.168.1.103', '00:00:00:00:00:00', '192.168.1.123'] in arp_req: raise Exception("dev1 saw ARP request from dev2") if [addr1, addr0, addr0, '192.168.1.123', addr1, '192.168.1.100'] not in arp_reply: raise Exception("dev1 did not get ARP response for 192.168.1.123") if ebtables: for req in arp_req: if req[1] != addr1: raise Exception("Unexpected foreign ARP request on dev1") arp_req = tshark_get_arp(cap_dev2, "arp.opcode == 1") arp_reply = tshark_get_arp(cap_dev2, "arp.opcode == 2") logger.info("dev2 seen ARP requests:\n" + str(arp_req)) logger.info("dev2 seen ARP replies:\n" + str(arp_reply)) if [addr2, addr0, addr0, '192.168.1.123', addr2, '192.168.1.103'] not in arp_reply: raise Exception("dev2 did not get ARP response for 192.168.1.123") arp_req = tshark_get_arp(cap_br, "arp.opcode == 1") arp_reply = tshark_get_arp(cap_br, "arp.opcode == 2") logger.info("br seen ARP requests:\n" + str(arp_req)) logger.info("br seen ARP replies:\n" + str(arp_reply)) # TODO: Uncomment once fixed in kernel #if [bssid, addr0, # addr0, '192.168.1.123', # bssid, '192.168.1.101'] not in arp_reply: # raise Exception("br did not get ARP response for 192.168.1.123") def _test_proxyarp_open_ipv6(dev, apdev, params, ebtables=False): cap_br = params['prefix'] + ".ap-br0.pcap" cap_dev0 = params['prefix'] + ".%s.pcap" % dev[0].ifname cap_dev1 = params['prefix'] + ".%s.pcap" % dev[1].ifname cap_dev2 = params['prefix'] + ".%s.pcap" % dev[2].ifname bssid = apdev[0]['bssid'] params = {'ssid': 'open'} params['proxy_arp'] = '1' hapd = hostapd.add_ap(apdev[0], params, no_enable=True) hapd.set("ap_isolate", "1") hapd.set('bridge', 'ap-br0') hapd.dump_monitor() try: hapd.enable() except: # For now, do not report failures due to missing kernel support raise HwsimSkip("Could not start hostapd - assume proxyarp not supported in kernel version") ev = hapd.wait_event(["AP-ENABLED", "AP-DISABLED"], timeout=10) if ev is None: raise Exception("AP startup timed out") if "AP-ENABLED" not in ev: raise Exception("AP startup failed") params2 = {'ssid': 'another'} hapd2 = hostapd.add_ap(apdev[1], params2, no_enable=True) hapd2.set('bridge', 'ap-br0') hapd2.enable() subprocess.call(['brctl', 'setfd', 'ap-br0', '0']) subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'up']) if ebtables: for chain in ['FORWARD', 'OUTPUT']: try: err = subprocess.call(['ebtables', '-A', chain, '-d', 'Multicast', '-p', 'IPv6', '--ip6-protocol', 'ipv6-icmp', '--ip6-icmp-type', 'neighbor-solicitation', '-o', apdev[0]['ifname'], '-j', 'DROP']) if err != 0: raise subprocess.call(['ebtables', '-A', chain, '-d', 'Multicast', '-p', 'IPv6', '--ip6-protocol', 'ipv6-icmp', '--ip6-icmp-type', 'neighbor-advertisement', '-o', apdev[0]['ifname'], '-j', 'DROP']) subprocess.call(['ebtables', '-A', chain, '-p', 'IPv6', '--ip6-protocol', 'ipv6-icmp', '--ip6-icmp-type', 'router-solicitation', '-o', apdev[0]['ifname'], '-j', 'DROP']) # Multicast Listener Report Message subprocess.call(['ebtables', '-A', chain, '-d', 'Multicast', '-p', 'IPv6', '--ip6-protocol', 'ipv6-icmp', '--ip6-icmp-type', '143', '-o', apdev[0]['ifname'], '-j', 'DROP']) except: raise HwsimSkip("No ebtables available") time.sleep(0.5) cmd = {} cmd[0] = WlantestCapture('ap-br0', cap_br) cmd[1] = WlantestCapture(dev[0].ifname, cap_dev0) cmd[2] = WlantestCapture(dev[1].ifname, cap_dev1) cmd[3] = WlantestCapture(dev[2].ifname, cap_dev2) dev[0].connect("open", key_mgmt="NONE", scan_freq="2412") dev[1].connect("open", key_mgmt="NONE", scan_freq="2412") dev[2].connect("another", key_mgmt="NONE", scan_freq="2412") time.sleep(0.1) brcmd = subprocess.Popen(['brctl', 'show'], stdout=subprocess.PIPE) res = brcmd.stdout.read().decode() brcmd.stdout.close() logger.info("Bridge setup: " + res) brcmd = subprocess.Popen(['brctl', 'showstp', 'ap-br0'], stdout=subprocess.PIPE) res = brcmd.stdout.read().decode() brcmd.stdout.close() logger.info("Bridge showstp: " + res) addr0 = dev[0].p2p_interface_addr() addr1 = dev[1].p2p_interface_addr() addr2 = dev[2].p2p_interface_addr() src_ll_opt0 = b"\x01\x01" + binascii.unhexlify(addr0.replace(':', '')) src_ll_opt1 = b"\x01\x01" + binascii.unhexlify(addr1.replace(':', '')) # DAD NS send_ns(dev[0], ip_src="::", target="aaaa:bbbb:cccc::2") send_ns(dev[0], ip_src="aaaa:bbbb:cccc::2", target="aaaa:bbbb:cccc::2") # test frame without source link-layer address option send_ns(dev[0], ip_src="aaaa:bbbb:cccc::2", target="aaaa:bbbb:cccc::2", opt='') # test frame with bogus option send_ns(dev[0], ip_src="aaaa:bbbb:cccc::2", target="aaaa:bbbb:cccc::2", opt=b"\x70\x01\x01\x02\x03\x04\x05\x05") # test frame with truncated source link-layer address option send_ns(dev[0], ip_src="aaaa:bbbb:cccc::2", target="aaaa:bbbb:cccc::2", opt=b"\x01\x01\x01\x02\x03\x04") # test frame with foreign source link-layer address option send_ns(dev[0], ip_src="aaaa:bbbb:cccc::2", target="aaaa:bbbb:cccc::2", opt=b"\x01\x01\x01\x02\x03\x04\x05\x06") send_ns(dev[1], ip_src="aaaa:bbbb:dddd::2", target="aaaa:bbbb:dddd::2") send_ns(dev[1], ip_src="aaaa:bbbb:eeee::2", target="aaaa:bbbb:eeee::2") # another copy for additional code coverage send_ns(dev[1], ip_src="aaaa:bbbb:eeee::2", target="aaaa:bbbb:eeee::2") macs = get_bridge_macs("ap-br0") logger.info("After connect (showmacs): " + str(macs)) matches = get_permanent_neighbors("ap-br0") logger.info("After connect: " + str(matches)) if len(matches) != 3: raise Exception("Unexpected number of neighbor entries after connect") if 'aaaa:bbbb:cccc::2 dev ap-br0 lladdr 02:00:00:00:00:00 PERMANENT' not in matches: raise Exception("dev0 addr missing") if 'aaaa:bbbb:dddd::2 dev ap-br0 lladdr 02:00:00:00:01:00 PERMANENT' not in matches: raise Exception("dev1 addr(1) missing") if 'aaaa:bbbb:eeee::2 dev ap-br0 lladdr 02:00:00:00:01:00 PERMANENT' not in matches: raise Exception("dev1 addr(2) missing") send_ns(dev[0], target="aaaa:bbbb:dddd::2", ip_src="aaaa:bbbb:cccc::2") time.sleep(0.1) send_ns(dev[1], target="aaaa:bbbb:cccc::2", ip_src="aaaa:bbbb:dddd::2") time.sleep(0.1) send_ns(hapd, hapd_bssid=bssid, target="aaaa:bbbb:dddd::2", ip_src="aaaa:bbbb:ffff::2") time.sleep(0.1) send_ns(dev[2], target="aaaa:bbbb:cccc::2", ip_src="aaaa:bbbb:ff00::2") time.sleep(0.1) send_ns(dev[2], target="aaaa:bbbb:dddd::2", ip_src="aaaa:bbbb:ff00::2") time.sleep(0.1) send_ns(dev[2], target="aaaa:bbbb:eeee::2", ip_src="aaaa:bbbb:ff00::2") time.sleep(0.1) # Try to probe for an already assigned address send_ns(dev[1], target="aaaa:bbbb:cccc::2", ip_src="::") time.sleep(0.1) send_ns(hapd, hapd_bssid=bssid, target="aaaa:bbbb:cccc::2", ip_src="::") time.sleep(0.1) send_ns(dev[2], target="aaaa:bbbb:cccc::2", ip_src="::") time.sleep(0.1) # Unsolicited NA send_na(dev[1], target="aaaa:bbbb:cccc:aeae::3", ip_src="aaaa:bbbb:cccc:aeae::3", ip_dst="ff02::1") send_na(hapd, hapd_bssid=bssid, target="aaaa:bbbb:cccc:aeae::4", ip_src="aaaa:bbbb:cccc:aeae::4", ip_dst="ff02::1") send_na(dev[2], target="aaaa:bbbb:cccc:aeae::5", ip_src="aaaa:bbbb:cccc:aeae::5", ip_dst="ff02::1") try: hwsim_utils.test_connectivity_iface(dev[0], hapd, "ap-br0") except Exception as e: logger.info("test_connectibity_iface failed: " + str(e)) raise HwsimSkip("Assume kernel did not have the required patches for proxyarp") hwsim_utils.test_connectivity_iface(dev[1], hapd, "ap-br0") hwsim_utils.test_connectivity(dev[0], dev[1]) dev[0].request("DISCONNECT") dev[1].request("DISCONNECT") time.sleep(0.5) for i in range(len(cmd)): cmd[i].close() macs = get_bridge_macs("ap-br0") logger.info("After disconnect (showmacs): " + str(macs)) matches = get_permanent_neighbors("ap-br0") logger.info("After disconnect: " + str(matches)) if len(matches) > 0: raise Exception("Unexpected neighbor entries after disconnect") if ebtables: cmd = subprocess.Popen(['ebtables', '-L', '--Lc'], stdout=subprocess.PIPE) res = cmd.stdout.read().decode() cmd.stdout.close() logger.info("ebtables results:\n" + res) ns = tshark_get_ns(cap_dev0) logger.info("dev0 seen NS: " + str(ns)) na = tshark_get_na(cap_dev0) logger.info("dev0 seen NA: " + str(na)) if [addr0, addr1, 'aaaa:bbbb:dddd::2', 'aaaa:bbbb:cccc::2', 'aaaa:bbbb:dddd::2', addr1] not in na: # For now, skip the test instead of reporting the error since the IPv6 # proxyarp support is not yet in the upstream kernel tree. #raise Exception("dev0 did not get NA for aaaa:bbbb:dddd::2") raise HwsimSkip("Assume kernel did not have the required patches for proxyarp (IPv6)") if ebtables: for req in ns: if req[1] == bssid and req[0] == "33:33:ff:" + bssid[9:] and \ req[3] == 'ff02::1:ff00:300' and req[4] == 'fe80::ff:fe00:300': # At least for now, ignore this special case until the kernel # can be prevented from sending it out. logger.info("dev0: Ignore NS from AP to own local addr: " + str(req)) elif req[1] != addr0: raise Exception("Unexpected foreign NS on dev0: " + str(req)) ns = tshark_get_ns(cap_dev1) logger.info("dev1 seen NS: " + str(ns)) na = tshark_get_na(cap_dev1) logger.info("dev1 seen NA: " + str(na)) if [addr1, addr0, 'aaaa:bbbb:cccc::2', 'aaaa:bbbb:dddd::2', 'aaaa:bbbb:cccc::2', addr0] not in na: raise Exception("dev1 did not get NA for aaaa:bbbb:cccc::2") if ebtables: for req in ns: if req[1] == bssid and req[0] == "33:33:ff:" + bssid[9:] and \ req[3] == 'ff02::1:ff00:300' and req[4] == 'fe80::ff:fe00:300': # At least for now, ignore this special case until the kernel # can be prevented from sending it out. logger.info("dev1: Ignore NS from AP to own local addr: " + str(req)) elif req[1] != addr1: raise Exception("Unexpected foreign NS on dev1: " + str(req)) ns = tshark_get_ns(cap_dev2) logger.info("dev2 seen NS: " + str(ns)) na = tshark_get_na(cap_dev2) logger.info("dev2 seen NA: " + str(na)) # FIX: enable once kernel implementation for proxyarp IPv6 is fixed #if [addr2, addr0, 'aaaa:bbbb:cccc::2', 'aaaa:bbbb:ff00::2', # 'aaaa:bbbb:cccc::2', addr0] not in na: # raise Exception("dev2 did not get NA for aaaa:bbbb:cccc::2") #if [addr2, addr1, 'aaaa:bbbb:dddd::2', 'aaaa:bbbb:ff00::2', # 'aaaa:bbbb:dddd::2', addr1] not in na: # raise Exception("dev2 did not get NA for aaaa:bbbb:dddd::2") #if [addr2, addr1, 'aaaa:bbbb:eeee::2', 'aaaa:bbbb:ff00::2', # 'aaaa:bbbb:eeee::2', addr1] not in na: # raise Exception("dev2 did not get NA for aaaa:bbbb:eeee::2") def test_proxyarp_open(dev, apdev, params): """ProxyARP with open network""" try: _test_proxyarp_open(dev, apdev, params) finally: subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'down'], stderr=open('/dev/null', 'w')) subprocess.call(['brctl', 'delbr', 'ap-br0'], stderr=open('/dev/null', 'w')) def test_proxyarp_open_ipv6(dev, apdev, params): """ProxyARP with open network (IPv6)""" try: _test_proxyarp_open_ipv6(dev, apdev, params) finally: subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'down'], stderr=open('/dev/null', 'w')) subprocess.call(['brctl', 'delbr', 'ap-br0'], stderr=open('/dev/null', 'w')) def test_proxyarp_open_ebtables(dev, apdev, params): """ProxyARP with open network""" try: _test_proxyarp_open(dev, apdev, params, ebtables=True) finally: try: subprocess.call(['ebtables', '-F', 'FORWARD']) subprocess.call(['ebtables', '-F', 'OUTPUT']) except: pass subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'down'], stderr=open('/dev/null', 'w')) subprocess.call(['brctl', 'delbr', 'ap-br0'], stderr=open('/dev/null', 'w')) def test_proxyarp_open_ebtables_ipv6(dev, apdev, params): """ProxyARP with open network (IPv6)""" try: _test_proxyarp_open_ipv6(dev, apdev, params, ebtables=True) finally: try: subprocess.call(['ebtables', '-F', 'FORWARD']) subprocess.call(['ebtables', '-F', 'OUTPUT']) except: pass subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'down'], stderr=open('/dev/null', 'w')) subprocess.call(['brctl', 'delbr', 'ap-br0'], stderr=open('/dev/null', 'w')) def test_proxyarp_errors(dev, apdev, params): """ProxyARP error cases""" try: run_proxyarp_errors(dev, apdev, params) finally: subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'down'], stderr=open('/dev/null', 'w')) subprocess.call(['brctl', 'delbr', 'ap-br0'], stderr=open('/dev/null', 'w')) def run_proxyarp_errors(dev, apdev, params): params = {'ssid': 'open', 'proxy_arp': '1', 'ap_isolate': '1', 'bridge': 'ap-br0', 'disable_dgaf': '1'} hapd = hostapd.add_ap(apdev[0], params, no_enable=True) try: hapd.enable() except: # For now, do not report failures due to missing kernel support raise HwsimSkip("Could not start hostapd - assume proxyarp not supported in kernel version") ev = hapd.wait_event(["AP-ENABLED", "AP-DISABLED"], timeout=10) if ev is None: raise Exception("AP startup timed out") if "AP-ENABLED" not in ev: raise Exception("AP startup failed") hapd.disable() with alloc_fail(hapd, 1, "l2_packet_init;x_snoop_get_l2_packet;dhcp_snoop_init"): if "FAIL" not in hapd.request("ENABLE"): raise Exception("ENABLE accepted unexpectedly") with alloc_fail(hapd, 1, "l2_packet_init;x_snoop_get_l2_packet;ndisc_snoop_init"): if "FAIL" not in hapd.request("ENABLE"): raise Exception("ENABLE accepted unexpectedly") with fail_test(hapd, 1, "l2_packet_set_packet_filter;x_snoop_get_l2_packet;ndisc_snoop_init"): if "FAIL" not in hapd.request("ENABLE"): raise Exception("ENABLE accepted unexpectedly") with fail_test(hapd, 1, "l2_packet_set_packet_filter;x_snoop_get_l2_packet;dhcp_snoop_init"): if "FAIL" not in hapd.request("ENABLE"): raise Exception("ENABLE accepted unexpectedly") hapd.enable() subprocess.call(['brctl', 'setfd', 'ap-br0', '0']) subprocess.call(['ip', 'link', 'set', 'dev', 'ap-br0', 'up']) dev[0].connect("open", key_mgmt="NONE", scan_freq="2412") addr0 = dev[0].own_addr() pkt = build_ra(src_ll=apdev[0]['bssid'], ip_src="aaaa:bbbb:cccc::33", ip_dst="ff01::1") with fail_test(hapd, 1, "x_snoop_mcast_to_ucast_convert_send"): if "OK" not in hapd.request("DATA_TEST_FRAME ifname=ap-br0 " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") wait_fail_trigger(hapd, "GET_FAIL") with alloc_fail(hapd, 1, "sta_ip6addr_add"): src_ll_opt0 = b"\x01\x01" + binascii.unhexlify(addr0.replace(':', '')) pkt = build_ns(src_ll=addr0, ip_src="aaaa:bbbb:cccc::2", ip_dst="ff02::1:ff00:2", target="aaaa:bbbb:cccc::2", opt=src_ll_opt0) hwsim_utils.sync_carrier(dev[0]) if "OK" not in dev[0].request("DATA_TEST_FRAME " + binascii.hexlify(pkt).decode()): raise Exception("DATA_TEST_FRAME failed") wait_fail_trigger(hapd, "GET_ALLOC_FAIL") def test_ap_hs20_connect_deinit(dev, apdev): """Hotspot 2.0 connection interrupted with deinit""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5') wpas.interface_add("wlan5", drv_params="") wpas.hs20_enable() wpas.flush_scan_cache() wpas.add_cred_values({'realm': "example.com", 'username': "hs20-test", 'password': "password", 'ca_cert': "auth_serv/ca.pem", 'domain': "example.com"}) wpas.scan_for_bss(bssid, freq=2412) hapd.disable() wpas.request("INTERWORKING_SELECT freq=2412") id = wpas.request("RADIO_WORK add block-work") ev = wpas.wait_event(["GAS-QUERY-START", "EXT-RADIO-WORK-START"], timeout=5) if ev is None: raise Exception("Timeout while waiting radio work to start") ev = wpas.wait_event(["GAS-QUERY-START", "EXT-RADIO-WORK-START"], timeout=5) if ev is None: raise Exception("Timeout while waiting radio work to start (2)") # Remove the interface while the gas-query radio work is still pending and # GAS query has not yet been started. wpas.interface_remove("wlan5") def test_ap_hs20_anqp_format_errors(dev, apdev): """Interworking network selection and ANQP format errors""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() values = {'realm': "example.com", 'ca_cert': "auth_serv/ca.pem", 'username': "hs20-test", 'password': "password", 'domain': "example.com"} id = dev[0].add_cred_values(values) dev[0].scan_for_bss(bssid, freq="2412") tests = ["00", "ffff", "010011223344", "020008000005112233445500", "01000400000000", "01000000000000", "01000300000200", "0100040000ff0000", "01000300000100", "01000300000001", "01000600000056112233", "01000900000002050001000111", "01000600000001000000", "01000600000001ff0000", "01000600000001020001", "010008000000010400010001", "0100080000000104000100ff", "010011000000010d00050200020100030005000600", "0000"] for t in tests: hapd.set("anqp_elem", "263:" + t) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-NO-MATCH"], timeout=5) if ev is None: raise Exception("Network selection timed out") dev[0].dump_monitor() dev[0].remove_cred(id) id = dev[0].add_cred_values({'imsi': "555444-333222111", 'eap': "AKA", 'milenage': "5122250214c33e723a5dd523fc145fc0:981d464c7c52eb6e5036234984ad0bcf:000000000123"}) tests = ["00", "0100", "0001", "00ff", "000200ff", "0003000101", "00020100"] for t in tests: hapd.set("anqp_elem", "264:" + t) dev[0].request("INTERWORKING_SELECT freq=2412") ev = dev[0].wait_event(["INTERWORKING-NO-MATCH"], timeout=5) if ev is None: raise Exception("Network selection timed out") dev[0].dump_monitor() def test_ap_hs20_cred_with_nai_realm(dev, apdev): """Hotspot 2.0 network selection and cred_with_nai_realm cred->realm""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com", 'eap': 'TTLS'}) interworking_select(dev[0], bssid, "home", freq=2412) dev[0].remove_cred(id) id = dev[0].add_cred_values({'realm': "foo.com", 'username': "test", 'password': "secret", 'domain': "example.com", 'home_ois': ["112234"], 'eap': 'TTLS'}) interworking_select(dev[0], bssid, "home", freq=2412, no_match=True) dev[0].remove_cred(id) def test_ap_hs20_cred_and_no_roaming_consortium(dev, apdev): """Hotspot 2.0 network selection and no roaming consortium""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid del params['roaming_consortium'] hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com", 'home_ois': ["112234"], 'eap': 'TTLS'}) interworking_select(dev[0], bssid, "home", freq=2412) def test_ap_hs20_interworking_oom(dev, apdev): """Hotspot 2.0 network selection and OOM""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['nai_realm'] = ["0,no.match.here;example.com;no.match.here.either,21[2:1][5:7]", "0,example.com,13[5:6],21[2:4][5:7]", "0,another.example.com"] hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com", 'eap': 'TTLS'}) dev[0].scan_for_bss(bssid, freq="2412") funcs = ["wpabuf_alloc;interworking_anqp_send_req", "anqp_build_req;interworking_anqp_send_req", "gas_query_req;interworking_anqp_send_req", "dup_binstr;nai_realm_parse_realm", "=nai_realm_parse_realm", "=nai_realm_parse", "=nai_realm_match"] for func in funcs: with alloc_fail(dev[0], 1, func): dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_event(["Starting ANQP"], timeout=5) if ev is None: raise Exception("ANQP did not start") wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].dump_monitor() def test_ap_hs20_no_cred_connect(dev, apdev): """Hotspot 2.0 and connect attempt without credential""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") if "FAIL" not in dev[0].request("INTERWORKING_CONNECT " + bssid): raise Exception("Unexpected INTERWORKING_CONNECT success") def test_ap_hs20_no_rsn_connect(dev, apdev): """Hotspot 2.0 and connect attempt without RSN""" bssid = apdev[0]['bssid'] params = hostapd.wpa_params(ssid="test-hs20") params['wpa_key_mgmt'] = "WPA-EAP" params['ieee80211w'] = "1" params['ieee8021x'] = "1" params['auth_server_addr'] = "127.0.0.1" params['auth_server_port'] = "1812" params['auth_server_shared_secret'] = "radius" params['interworking'] = "1" params['roaming_consortium'] = ["112233", "1020304050", "010203040506", "fedcba"] params['nai_realm'] = ["0,example.com,13[5:6],21[2:4][5:7]", "0,another.example.com"] hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com", 'home_ois': ["112233"], 'eap': 'TTLS'}) interworking_select(dev[0], bssid, freq=2412, no_match=True) if "FAIL" not in dev[0].request("INTERWORKING_CONNECT " + bssid): raise Exception("Unexpected INTERWORKING_CONNECT success") def test_ap_hs20_no_match_connect(dev, apdev): """Hotspot 2.0 and connect attempt without matching cred""" bssid = apdev[0]['bssid'] params = hs20_ap_params() hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") id = dev[0].add_cred_values({'realm': "example.org", 'username': "test", 'password': "secret", 'domain': "example.org", 'home_ois': ["112234"], 'eap': 'TTLS'}) interworking_select(dev[0], bssid, freq=2412, no_match=True) if "FAIL" not in dev[0].request("INTERWORKING_CONNECT " + bssid): raise Exception("Unexpected INTERWORKING_CONNECT success") def test_ap_hs20_multiple_home_cred(dev, apdev): """Hotspot 2.0 and select with multiple matching home credentials""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['nai_realm'] = ["0,example.com,13[5:6],21[2:4][5:7]"] params['domain_name'] = "example.com" hapd = hostapd.add_ap(apdev[0], params) bssid2 = apdev[1]['bssid'] params = hs20_ap_params(ssid="test-hs20-other") params['hessid'] = bssid2 params['nai_realm'] = ["0,example.org,13[5:6],21[2:4][5:7]"] params['domain_name'] = "example.org" hapd2 = hostapd.add_ap(apdev[1], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid2, freq="2412") dev[0].scan_for_bss(bssid, freq="2412") id = dev[0].add_cred_values({'realm': "example.com", 'priority': '2', 'username': "hs20-test", 'password': "password", 'domain': "example.com"}) id2 = dev[0].add_cred_values({'realm': "example.org", 'priority': '3', 'username': "hs20-test", 'password': "password", 'domain': "example.org"}) dev[0].request("INTERWORKING_SELECT auto freq=2412") ev = dev[0].wait_connected(timeout=15) if bssid2 not in ev: raise Exception("Connected to incorrect network") def test_ap_hs20_anqp_invalid_gas_response(dev, apdev): """Hotspot 2.0 network selection and invalid GAS response""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) dev[0].scan_for_bss(bssid, freq="2412") hapd.set("ext_mgmt_frame_handling", "1") dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "test", 'password': "secret", 'domain': "example.com", 'home_ois': ["112234"], 'eap': 'TTLS'}) dev[0].request("INTERWORKING_SELECT freq=2412") query = gas_rx(hapd) gas = parse_gas(query['payload']) logger.info("ANQP: Unexpected Advertisement Protocol in response") resp = action_response(query) adv_proto = struct.pack('8B', 108, 6, 127, 0xdd, 0x00, 0x11, 0x22, 0x33) data = struct.pack('eap.eap_methods = os_malloc()") with alloc_fail(dev[0], 1, "interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].remove_cred(id) id = dev[0].add_cred_values({'realm': "example.com", 'domain': "example.com", 'username': "hs20-test-with-domain@example.com", 'password': "password"}) interworking_select(dev[0], bssid, "home", freq=2412) dev[0].dump_monitor() dev[0].request("NOTE anon = os_malloc()") with alloc_fail(dev[0], 1, "interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE Successful connection with cred->username including realm") dev[0].request("INTERWORKING_CONNECT " + bssid) dev[0].wait_connected() hapd.wait_sta() dev[0].remove_cred(id) dev[0].wait_disconnected() hapd.wait_sta_disconnect() id = dev[0].add_cred_values({'realm': "example.com", 'domain': "example.com", 'username': "hs20-test", 'password': "password"}) interworking_select(dev[0], bssid, "home", freq=2412) dev[0].dump_monitor() dev[0].request("NOTE anon = os_malloc() (second)") with alloc_fail(dev[0], 1, "interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") with alloc_fail(dev[0], 1, "wpa_config_add_network;interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") with alloc_fail(dev[0], 1, "=interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set(eap)") with alloc_fail(dev[0], 1, "wpa_config_parse_eap;wpa_config_set;interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set(TTLS-NON_EAP_MSCHAPV2-phase2)") with alloc_fail(dev[0], 1, "wpa_config_parse_str;wpa_config_set;interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].remove_cred(id) id = dev[0].add_cred_values({'home_ois': ["112233"], 'domain': "example.com", 'username': "hs20-test", 'password': "password", 'eap': 'TTLS', 'phase2': "auth=MSCHAPV2"}) interworking_select(dev[0], bssid, "home", freq=2412) dev[0].dump_monitor() dev[0].request("NOTE anon = os_strdup()") with alloc_fail(dev[0], 2, "interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set_quoted(anonymous_identity)") with alloc_fail(dev[0], 1, "=wpa_config_set_quoted;interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE Successful connection with cred->realm not included") dev[0].request("INTERWORKING_CONNECT " + bssid) dev[0].wait_connected() hapd.wait_sta() dev[0].remove_cred(id) dev[0].wait_disconnected() hapd.wait_sta_disconnect() id = dev[0].add_cred_values({'home_ois': ["112233"], 'domain': "example.com", 'realm': "example.com", 'username': "user", 'password': "password", 'eap': 'PEAP'}) interworking_select(dev[0], bssid, "home", freq=2412) dev[0].dump_monitor() dev[0].request("NOTE id = os_strdup()") with alloc_fail(dev[0], 2, "interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set_quoted(identity)") with alloc_fail(dev[0], 1, "=wpa_config_set_quoted;interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].remove_cred(id) id = dev[0].add_cred_values({'home_ois': ["112233"], 'domain': "example.com", 'realm': "example.com", 'username': "user", 'password': "password", 'eap': "TTLS"}) interworking_select(dev[0], bssid, "home", freq=2412) dev[0].dump_monitor() dev[0].request("NOTE wpa_config_set_quoted(identity) (second)") with alloc_fail(dev[0], 2, "=wpa_config_set_quoted;interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set_quoted(password)") with alloc_fail(dev[0], 3, "=wpa_config_set_quoted;interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") with alloc_fail(dev[0], 1, "wpa_config_add_network;interworking_connect_roaming_consortium"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") with alloc_fail(dev[0], 1, "=interworking_connect_roaming_consortium"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].remove_cred(id) id = dev[0].add_cred_values({'home_ois': ["112233"], 'domain': "example.com", 'realm': "example.com", 'username': "user", 'eap': "PEAP"}) dev[0].set_cred(id, "password", "ext:password") interworking_select(dev[0], bssid, "home", freq=2412) dev[0].dump_monitor() dev[0].request("NOTE wpa_config_set(password)") with alloc_fail(dev[0], 3, "wpa_config_set;interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") with alloc_fail(dev[0], 1, "interworking_set_hs20_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].remove_cred(id) id = dev[0].add_cred_values({'realm': "example.com", 'domain': "example.com", 'username': "certificate-user", 'phase1': "include_tls_length=0", 'domain_suffix_match': "example.com", 'ca_cert': "auth_serv/ca.pem", 'client_cert': "auth_serv/user.pem", 'private_key': "auth_serv/user.key", 'private_key_passwd': "secret"}) interworking_select(dev[0], bssid, "home", freq=2412) dev[0].dump_monitor() dev[0].request("NOTE wpa_config_set_quoted(client_cert)") with alloc_fail(dev[0], 2, "=wpa_config_set_quoted;interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set_quoted(private_key)") with alloc_fail(dev[0], 3, "=wpa_config_set_quoted;interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set_quoted(private_key_passwd)") with alloc_fail(dev[0], 4, "=wpa_config_set_quoted;interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set_quoted(ca_cert)") with alloc_fail(dev[0], 5, "=wpa_config_set_quoted;interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set_quoted(domain_suffix_match)") with alloc_fail(dev[0], 6, "=wpa_config_set_quoted;interworking_set_eap_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") with alloc_fail(dev[0], 1, "interworking_set_hs20_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].remove_cred(id) id = dev[0].add_cred_values({'imsi': "555444-333222111", 'eap': "SIM", 'milenage': "5122250214c33e723a5dd523fc145fc0:981d464c7c52eb6e5036234984ad0bcf:000000000123"}) interworking_select(dev[0], bssid, freq=2412) dev[0].dump_monitor() with alloc_fail(dev[0], 1, "interworking_set_hs20_params"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set_quoted(password;milenage)") with alloc_fail(dev[0], 2, "=wpa_config_set_quoted;interworking_connect_3gpp"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set(eap)") with alloc_fail(dev[0], 1, "wpa_config_parse_eap;wpa_config_set;interworking_connect_3gpp"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE set_root_nai:wpa_config_set(identity)") with alloc_fail(dev[0], 1, "wpa_config_parse_str;interworking_connect_3gpp"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].remove_cred(id) id = dev[0].add_cred_values({'home_ois': ["112233"], 'eap': 'TTLS', 'username': "user@example.com", 'password': "password"}) interworking_select(dev[0], bssid, freq=2412) dev[0].dump_monitor() dev[0].request("NOTE Interworking: No EAP method set for credential using roaming consortium") dev[0].request("INTERWORKING_CONNECT " + bssid) dev[0].remove_cred(id) hapd.disable() params = hs20_ap_params() params['nai_realm'] = "0,example.com,25[3:26]" hapd = hostapd.add_ap(apdev[0], params) id = dev[0].add_cred_values({'realm': "example.com", 'domain': "example.com", 'username': "hs20-test", 'password': "password"}) interworking_select(dev[0], bssid, freq=2412) dev[0].dump_monitor() dev[0].request("NOTE wpa_config_set(PEAP/FAST-phase1)") with alloc_fail(dev[0], 1, "wpa_config_parse_str;wpa_config_set;interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set(PEAP/FAST-pac_interworking)") with alloc_fail(dev[0], 2, "wpa_config_parse_str;wpa_config_set;interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].request("NOTE wpa_config_set(PEAP/FAST-phase2)") with alloc_fail(dev[0], 3, "wpa_config_parse_str;wpa_config_set;interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") hapd.disable() params = hs20_ap_params() params['nai_realm'] = "0,example.com,21" hapd = hostapd.add_ap(apdev[0], params) interworking_select(dev[0], bssid, freq=2412) dev[0].request("NOTE wpa_config_set(TTLS-defaults-phase2)") with alloc_fail(dev[0], 1, "wpa_config_parse_str;wpa_config_set;interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") hapd.disable() params = hs20_ap_params() params['nai_realm'] = "0,example.com,21[2:3]" hapd = hostapd.add_ap(apdev[0], params) interworking_select(dev[0], bssid, freq=2412) dev[0].request("NOTE wpa_config_set(TTLS-NON_EAP_MSCHAP-phase2)") with alloc_fail(dev[0], 1, "wpa_config_parse_str;wpa_config_set;interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") hapd.disable() params = hs20_ap_params() params['nai_realm'] = "0,example.com,21[2:2]" hapd = hostapd.add_ap(apdev[0], params) interworking_select(dev[0], bssid, freq=2412) dev[0].request("NOTE wpa_config_set(TTLS-NON_EAP_CHAP-phase2)") with alloc_fail(dev[0], 1, "wpa_config_parse_str;wpa_config_set;interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") hapd.disable() params = hs20_ap_params() params['nai_realm'] = "0,example.com,21[2:1]" hapd = hostapd.add_ap(apdev[0], params) interworking_select(dev[0], bssid, freq=2412) dev[0].request("NOTE wpa_config_set(TTLS-NON_EAP_PAP-phase2)") with alloc_fail(dev[0], 1, "wpa_config_parse_str;wpa_config_set;interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") hapd.disable() params = hs20_ap_params() params['nai_realm'] = "0,example.com,21[3:26]" hapd = hostapd.add_ap(apdev[0], params) interworking_select(dev[0], bssid, freq=2412) dev[0].request("NOTE wpa_config_set(TTLS-EAP-MSCHAPV2-phase2)") with alloc_fail(dev[0], 1, "wpa_config_parse_str;wpa_config_set;interworking_connect"): dev[0].request("INTERWORKING_CONNECT " + bssid) wait_fail_trigger(dev[0], "GET_ALLOC_FAIL") dev[0].remove_cred(id) def test_ap_hs20_unexpected(dev, apdev): """Unexpected Hotspot 2.0 AP configuration""" skip_without_tkip(dev[0]) skip_without_tkip(dev[1]) skip_without_tkip(dev[2]) check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hostapd.wpa_eap_params(ssid="test-hs20-fake") params['wpa'] = "3" params['wpa_pairwise'] = "TKIP CCMP" params['rsn_pairwise'] = "CCMP" params['ieee80211w'] = "1" #params['vendor_elements'] = 'dd07506f9a10140000' params['vendor_elements'] = 'dd04506f9a10' hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") dev[0].connect("test-hs20-fake", key_mgmt="WPA-EAP", eap="TTLS", pairwise="TKIP", identity="hs20-test", password="password", ca_cert="auth_serv/ca.pem", phase2="auth=MSCHAPV2", scan_freq="2412") dev[1].hs20_enable() dev[1].scan_for_bss(bssid, freq="2412") dev[1].connect("test-hs20-fake", key_mgmt="WPA-EAP", eap="TTLS", proto="WPA", identity="hs20-test", password="password", ca_cert="auth_serv/ca.pem", phase2="auth=MSCHAPV2", scan_freq="2412") dev[2].hs20_enable() dev[2].scan_for_bss(bssid, freq="2412") dev[2].connect("test-hs20-fake", key_mgmt="WPA-EAP", eap="TTLS", ieee80211w="1", proto="RSN", pairwise="CCMP", identity="hs20-test", password="password", ca_cert="auth_serv/ca.pem", phase2="auth=MSCHAPV2", scan_freq="2412") def test_ap_interworking_element_update(dev, apdev): """Dynamic Interworking element update""" bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].scan_for_bss(bssid, freq="2412") bss = dev[0].get_bss(bssid) logger.info("Before update: " + str(bss)) if '6b091e0701020000000300' not in bss['ie']: raise Exception("Expected Interworking element not seen before update") # Update configuration parameters related to Interworking element hapd.set('access_network_type', '2') hapd.set('asra', '1') hapd.set('esr', '1') hapd.set('uesa', '1') hapd.set('venue_group', '2') hapd.set('venue_type', '8') if "OK" not in hapd.request("UPDATE_BEACON"): raise Exception("UPDATE_BEACON failed") dev[0].request("BSS_FLUSH 0") dev[0].scan_for_bss(bssid, freq="2412", force_scan=True) bss = dev[0].get_bss(bssid) logger.info("After update: " + str(bss)) if '6b09f20208020000000300' not in bss['ie']: raise Exception("Expected Interworking element not seen after update") def test_ap_hs20_terms_and_conditions(dev, apdev): """Hotspot 2.0 Terms and Conditions signaling""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['hs20_t_c_filename'] = 'terms-and-conditions' params['hs20_t_c_timestamp'] = '123456789' hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].connect("test-hs20", proto="RSN", key_mgmt="WPA-EAP", eap="TTLS", identity="hs20-t-c-test", password="password", ca_cert="auth_serv/ca.pem", phase2="auth=MSCHAPV2", ieee80211w='2', scan_freq="2412") ev = dev[0].wait_event(["HS20-T-C-ACCEPTANCE"], timeout=5) if ev is None: raise Exception("Terms and Conditions Acceptance notification not received") url = "https://example.com/t_and_c?addr=%s&ap=123" % dev[0].own_addr() if url not in ev: raise Exception("Unexpected URL: " + ev) def test_ap_hs20_terms_and_conditions_coa(dev, apdev): """Hotspot 2.0 Terms and Conditions signaling - CoA""" try: import pyrad.client import pyrad.packet import pyrad.dictionary import radius_das except ImportError: raise HwsimSkip("No pyrad modules available") check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['hs20_t_c_filename'] = 'terms-and-conditions' params['hs20_t_c_timestamp'] = '123456789' params['own_ip_addr'] = "127.0.0.1" params['radius_das_port'] = "3799" params['radius_das_client'] = "127.0.0.1 secret" params['radius_das_require_event_timestamp'] = "1" hapd = hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].connect("test-hs20", proto="RSN", key_mgmt="WPA-EAP", eap="TTLS", identity="hs20-t-c-test", password="password", ca_cert="auth_serv/ca.pem", phase2="auth=MSCHAPV2", ieee80211w='2', scan_freq="2412") ev = hapd.wait_event(["HS20-T-C-FILTERING-ADD"], timeout=5) if ev is None: raise Exception("Terms and Conditions filtering not enabled") if ev.split(' ')[1] != dev[0].own_addr(): raise Exception("Unexpected STA address for filtering: " + ev) ev = dev[0].wait_event(["HS20-T-C-ACCEPTANCE"], timeout=5) if ev is None: raise Exception("Terms and Conditions Acceptance notification not received") url = "https://example.com/t_and_c?addr=%s&ap=123" % dev[0].own_addr() if url not in ev: raise Exception("Unexpected URL: " + ev) dict = pyrad.dictionary.Dictionary("dictionary.radius") srv = pyrad.client.Client(server="127.0.0.1", acctport=3799, secret=b"secret", dict=dict) srv.retries = 1 srv.timeout = 1 sta = hapd.get_sta(dev[0].own_addr()) multi_sess_id = sta['authMultiSessionId'] logger.info("CoA-Request with matching Acct-Session-Id") vsa = binascii.unhexlify('00009f68090600000000') req = radius_das.CoAPacket(dict=dict, secret=b"secret", NAS_IP_Address="127.0.0.1", Acct_Multi_Session_Id=multi_sess_id, Chargeable_User_Identity="hs20-cui", Event_Timestamp=int(time.time()), Vendor_Specific=vsa) reply = srv.SendPacket(req) logger.debug("RADIUS response from hostapd") for i in list(reply.keys()): logger.debug("%s: %s" % (i, reply[i])) if reply.code != pyrad.packet.CoAACK: raise Exception("CoA-Request failed") ev = hapd.wait_event(["HS20-T-C-FILTERING-REMOVE"], timeout=5) if ev is None: raise Exception("Terms and Conditions filtering not disabled") if ev.split(' ')[1] != dev[0].own_addr(): raise Exception("Unexpected STA address for filtering: " + ev) def test_ap_hs20_terms_and_conditions_sql(dev, apdev, params): """Hotspot 2.0 Terms and Conditions using SQLite for user DB""" addr = dev[0].own_addr() run_ap_hs20_terms_and_conditions_sql(dev, apdev, params, "https://example.com/t_and_c?addr=@1@&ap=123", "https://example.com/t_and_c?addr=" + addr + "&ap=123") def test_ap_hs20_terms_and_conditions_sql2(dev, apdev, params): """Hotspot 2.0 Terms and Conditions using SQLite for user DB""" addr = dev[0].own_addr() run_ap_hs20_terms_and_conditions_sql(dev, apdev, params, "https://example.com/t_and_c?addr=@1@", "https://example.com/t_and_c?addr=" + addr) def run_ap_hs20_terms_and_conditions_sql(dev, apdev, params, url_template, url_expected): check_eap_capa(dev[0], "MSCHAPV2") try: import sqlite3 except ImportError: raise HwsimSkip("No sqlite3 module available") dbfile = params['prefix'] + ".eap-user.db" try: os.remove(dbfile) except: pass con = sqlite3.connect(dbfile) with con: cur = con.cursor() cur.execute("CREATE TABLE users(identity TEXT PRIMARY KEY, methods TEXT, password TEXT, remediation TEXT, phase2 INTEGER, t_c_timestamp INTEGER)") cur.execute("CREATE TABLE wildcards(identity TEXT PRIMARY KEY, methods TEXT)") cur.execute("INSERT INTO users(identity,methods,password,phase2) VALUES ('user-mschapv2','TTLS-MSCHAPV2','password',1)") cur.execute("INSERT INTO wildcards(identity,methods) VALUES ('','TTLS,TLS')") cur.execute("CREATE TABLE authlog(timestamp TEXT, session TEXT, nas_ip TEXT, username TEXT, note TEXT)") cur.execute("CREATE TABLE pending_tc(mac_addr TEXT PRIMARY KEY, identity TEXT)") cur.execute("CREATE TABLE current_sessions(mac_addr TEXT PRIMARY KEY, identity TEXT, start_time TEXT, nas TEXT, hs20_t_c_filtering BOOLEAN, waiting_coa_ack BOOLEAN, coa_ack_received BOOLEAN)") try: params = {"ssid": "as", "beacon_int": "2000", "radius_server_clients": "auth_serv/radius_clients.conf", "radius_server_auth_port": '18128', "eap_server": "1", "eap_user_file": "sqlite:" + dbfile, "ca_cert": "auth_serv/ca.pem", "server_cert": "auth_serv/server.pem", "private_key": "auth_serv/server.key"} params['hs20_t_c_server_url'] = url_template authsrv = hostapd.add_ap(apdev[1], params) bssid = apdev[0]['bssid'] params = hs20_ap_params() params['auth_server_port'] = "18128" params['hs20_t_c_filename'] = 'terms-and-conditions' params['hs20_t_c_timestamp'] = '123456789' params['own_ip_addr'] = "127.0.0.1" params['radius_das_port'] = "3799" params['radius_das_client'] = "127.0.0.1 radius" params['radius_das_require_event_timestamp'] = "1" params['disable_pmksa_caching'] = '1' hapd = hostapd.add_ap(apdev[0], params) dev[0].request("SET pmf 1") dev[0].hs20_enable() id = dev[0].add_cred_values({'realm': "example.com", 'username': "user-mschapv2", 'password': "password", 'ca_cert': "auth_serv/ca.pem"}) interworking_select(dev[0], bssid, freq="2412") interworking_connect(dev[0], bssid, "TTLS") ev = hapd.wait_event(["HS20-T-C-FILTERING-ADD"], timeout=5) if ev is None: raise Exception("Terms and Conditions filtering not enabled") hapd.dump_monitor() ev = dev[0].wait_event(["HS20-T-C-ACCEPTANCE"], timeout=5) if ev is None: raise Exception("Terms and Conditions Acceptance notification not received") url = ev.split(' ')[1] if url != url_expected: raise Exception("Unexpected URL delivered to the client: %s (expected %s)" % (url, url_expected)) dev[0].dump_monitor() with con: cur = con.cursor() cur.execute("SELECT * from current_sessions") rows = cur.fetchall() if len(rows) != 1: raise Exeception("Unexpected number of rows in current_sessions (%d; expected %d)" % (len(rows), 1)) logger.info("current_sessions: " + str(rows)) tests = ["foo", "disconnect q", "coa %s" % dev[0].own_addr()] for t in tests: if "FAIL" not in authsrv.request("DAC_REQUEST " + t): raise Exception("Invalid DAC_REQUEST accepted: " + t) if "OK" not in authsrv.request("DAC_REQUEST coa %s t_c_clear" % dev[0].own_addr()): raise Exception("DAC_REQUEST failed") ev = hapd.wait_event(["HS20-T-C-FILTERING-REMOVE"], timeout=5) if ev is None: raise Exception("Terms and Conditions filtering not disabled") if ev.split(' ')[1] != dev[0].own_addr(): raise Exception("Unexpected STA address for filtering: " + ev) time.sleep(0.2) with con: cur = con.cursor() cur.execute("SELECT * from current_sessions") rows = cur.fetchall() if len(rows) != 1: raise Exeception("Unexpected number of rows in current_sessions (%d; expected %d)" % (len(rows), 1)) logger.info("current_sessions: " + str(rows)) if rows[0][4] != 0 or rows[0][5] != 0 or rows[0][6] != 1: raise Exception("Unexpected current_sessions information after CoA-ACK") dev[0].request("DISCONNECT") dev[0].wait_disconnected() dev[0].dump_monitor() # Simulate T&C server operation on user reading the updated version with con: cur = con.cursor() cur.execute("SELECT identity FROM pending_tc WHERE mac_addr='" + dev[0].own_addr() + "'") rows = cur.fetchall() if len(rows) != 1: raise Exception("No pending_tc entry found") if rows[0][0] != 'user-mschapv2': raise Exception("Unexpected pending_tc identity value") cur.execute("UPDATE users SET t_c_timestamp=123456789 WHERE identity='user-mschapv2'") dev[0].request("RECONNECT") dev[0].wait_connected() ev = hapd.wait_event(["HS20-T-C-FILTERING-ADD"], timeout=0.1) if ev is not None: raise Exception("Terms and Conditions filtering enabled unexpectedly") hapd.dump_monitor() ev = dev[0].wait_event(["HS20-T-C-ACCEPTANCE"], timeout=0.1) if ev is not None: raise Exception("Unexpected Terms and Conditions Acceptance notification") dev[0].dump_monitor() dev[0].request("DISCONNECT") dev[0].wait_disconnected() dev[0].dump_monitor() # New T&C available hapd.set('hs20_t_c_timestamp', '123456790') dev[0].request("RECONNECT") dev[0].wait_connected() ev = hapd.wait_event(["HS20-T-C-FILTERING-ADD"], timeout=5) if ev is None: raise Exception("Terms and Conditions filtering not enabled") hapd.dump_monitor() ev = dev[0].wait_event(["HS20-T-C-ACCEPTANCE"], timeout=5) if ev is None: raise Exception("Terms and Conditions Acceptance notification not received (2)") dev[0].dump_monitor() dev[0].request("DISCONNECT") dev[0].wait_disconnected() dev[0].dump_monitor() # Simulate T&C server operation on user reading the updated version with con: cur = con.cursor() cur.execute("UPDATE users SET t_c_timestamp=123456790 WHERE identity='user-mschapv2'") dev[0].request("RECONNECT") dev[0].wait_connected() ev = hapd.wait_event(["HS20-T-C-FILTERING-ADD"], timeout=0.1) if ev is not None: raise Exception("Terms and Conditions filtering enabled unexpectedly") hapd.dump_monitor() ev = dev[0].wait_event(["HS20-T-C-ACCEPTANCE"], timeout=0.1) if ev is not None: raise Exception("Unexpected Terms and Conditions Acceptance notification (2)") dev[0].dump_monitor() finally: os.remove(dbfile) dev[0].request("SET pmf 0") def test_ap_hs20_release_number_1(dev, apdev): """Hotspot 2.0 with AP claiming support for Release 1""" run_ap_hs20_release_number(dev, apdev, 1) def test_ap_hs20_release_number_2(dev, apdev): """Hotspot 2.0 with AP claiming support for Release 2""" run_ap_hs20_release_number(dev, apdev, 2) def test_ap_hs20_release_number_3(dev, apdev): """Hotspot 2.0 with AP claiming support for Release 3""" run_ap_hs20_release_number(dev, apdev, 3) def run_ap_hs20_release_number(dev, apdev, release): check_eap_capa(dev[0], "MSCHAPV2") eap_test(dev[0], apdev[0], "21[3:26][6:7][99:99]", "TTLS", "user", release=release) rel = dev[0].get_status_field('hs20') if rel != str(release): raise Exception("Unexpected release number indicated: " + rel) def test_ap_hs20_missing_pmf(dev, apdev): """Hotspot 2.0 connection attempt without PMF""" check_eap_capa(dev[0], "MSCHAPV2") bssid = apdev[0]['bssid'] params = hs20_ap_params() params['hessid'] = bssid params['disable_dgaf'] = '1' hostapd.add_ap(apdev[0], params) dev[0].hs20_enable() dev[0].connect("test-hs20", proto="RSN", key_mgmt="WPA-EAP", eap="TTLS", ieee80211w="0", identity="hs20-test", password="password", ca_cert="auth_serv/ca.pem", phase2="auth=MSCHAPV2", scan_freq="2412", update_identifier="54321", roaming_consortium_selection="1020304050", wait_connect=False) ev = dev[0].wait_event(["CTRL-EVENT-ASSOC-REJECT"], timeout=10) dev[0].request("DISCONNECT") if ev is None: raise Exception("Association rejection not reported") if "status_code=31" not in ev: raise Exception("Unexpected rejection reason: " + ev) def test_ap_hs20_open_osu_association(dev, apdev): """Hotspot 2.0 open OSU association""" try: run_ap_hs20_open_osu_association(dev, apdev) finally: dev[0].request("VENDOR_ELEM_REMOVE 13 *") def run_ap_hs20_open_osu_association(dev, apdev): params = {"ssid": "HS 2.0 OSU open"} hostapd.add_ap(apdev[0], params) dev[0].connect("HS 2.0 OSU open", key_mgmt="NONE", scan_freq="2412") dev[0].request("REMOVE_NETWORK all") dev[0].wait_disconnected() dev[0].dump_monitor() # Test with unexpected Hotspot 2.0 Indication element in Assoc Req dev[0].request("VENDOR_ELEM_ADD 13 dd07506f9a10220000") dev[0].connect("HS 2.0 OSU open", key_mgmt="NONE", scan_freq="2412")